Constructs and uses thereof for efficient and specific genome editing

ABSTRACT

A composition comprising a CRISPR nuclease, where the nuclease includes a sequence with at least 60% sequence identity to any one of SEQ ID NOs: 143-177 and 229, optionally also including a guide nucleic acid (gNA), such as a guide ribonucleic acid (gRNA) and, in some cases, a donor sequence. Also include are methods of creating a strand break at or near a target sequence in a target polynucleotide by contacting the target polynucleotide with a nuclease including a sequence with at least 60% sequence identity to any one of SEQ ID NOs: 143-177 and 229, and a compatible guide nucleic acid (gNA), such as a guide ribonucleic acid (gRNA).

CROSS-REFERENCE

This application claims the benefit of U.S. Provisional Application No. 63/080,552, filed Sep. 18, 2020, and of U.S. Provisional Application No. 63/185,315, filed May 6, 2021, which applications are incorporated herein by reference.

BACKGROUND

CRISPR is an abbreviation of Clustered Regularly Interspaced Short Palindromic Repeats. In a palindromic repeat, the sequence of nucleotides is the same in both directions. Each of these palindromic repetitions is followed by short segments of spacer DNA. Small clusters of Cas (CRISPR-associated system) genes are located next to CRISPR sequences. The CRISPR/Cas system is a prokaryotic immune system that can confer resistance to foreign genetic elements such as those present within plasmids and phages providing the prokaryote a form of acquired immunity. RNA harboring a spacer sequence assists Cas (CRISPR-associated) proteins to recognize and cut exogenous DNA. CRISPR sequences are found in approximately 50% of bacterial genomes and nearly 90% of sequenced archaea has selected for efficient and robust metabolic and regulatory networks that prevent unnecessary metabolite biosynthesis and optimally distribute resources to maximize overall cellular fitness. The complexity of these networks with limited approaches to understand their structure and function and the ability to re-program cellular networks to modify these systems for a diverse range of applications has complicated advances in this space. Certain approaches to re-program cellular networks are directed to modifying single genes of complex pathways but as a consequence of modifying single genes, unwanted modifications to the genes or other genes can result, getting in the way of identifying changes necessary to achieve a sought-after endpoint as well as complicating the endpoint sought by the modification.

CRISPR-Cas driven genome editing and engineering has dramatically impacted biology and biotechnology in general. CRISPR-Cas editing systems require a polynucleotide guided nuclease, a guide polynucleotide (e.g. a guide RNA (gRNA)) that directs the nuclease to cut a specific region of the genome, and, optionally, a donor DNA cassette that can be used to repair the cut dsDNA and thereby incorporate programmable edits at the site of interest. The earliest demonstrations and applications of CRISPR-Cas editing used Cas9 nucleases and associated gRNA. These systems have been used for gene editing in a broad range of species encompassing bacteria to higher order mammalian systems such as animals and in certain cases, humans. It is well established, however, that key editing parameters such as protospacer adjacent motif (PAM) specificity, editing efficiency, and off-target rates, among others, are species, loci, and nuclease dependent. There is increasing interest in identifying and rapidly characterizing novel nuclease systems that can be exploited to broaden and improve overall editing capabilities.

It is known that Cas12a is a single RNA-guided CRISPR/Cas endonuclease capable of genome editing having differing features when compared to Cas9. In certain embodiments, a Cas12a-based system allow fast and reliable introduction of donor DNA into a genome. In addition, Cas12a broadens genome editing. CRISPR/Cas12a genome editing has been evaluated in human cells as well as other organisms including plants. Several features of the CRISPR/Cas12a system are different when compared to CRISPR/Cas9.

It is known that Cas12a nuclease recognizes T-rich protospacer adjacent motif (PAM) sequences (e.g. 5′-TTTN-3′ (AsCas12a, LbCas12a) and 5′-TTN-3′ (FnCas12a); whereas, the comparable sequence for SpCas9 is NGG. The PAM sequence of Cas12a is located at the 5′ end of the target DNA sequence, where it is at the 3′ end for Cas9. In addition, Cas12a is capable of cleaving DNA distal to its PAM around the +18/+23 position of the protospacer. This cleavage creates a staggered DNA overhang (e.g. sticky ends), whereas Cas9 cleaves close to its PAM after the 3′ position of the protospacer at both strands and creates blunt ends. In certain methods, creating altered recognition of nucleases can provide an improvement over Cas9 or Cas12a to improve accuracy. Further, Cas12a is guided by a single crRNA and does not require a tracrRNA, resulting in a shorter gRNA sequence than the sgRNA used by Cas9.

It is also known that Cas12a displays additional ribonuclease activity that functions in crRNA processing. Cas12a is used as an editing tool for different species (e.g. S. cerevisiae), allowing the use of an alternative PAM sequence compared with the one recognized by CRISPR/Cas9.

Well-known Cas12a protein-RNA complexes recognize a T-rich PAM and cleavage leads to a staggered DNA double-stranded break. Cas12a-type nuclease interacts with the pseudoknot structure formed by the 5′-handle of crRNA. A guide RNA segment, composed of a seed region and the 3′ terminus, possesses complementary binding sequences with the target DNA sequences. Cas12a type nucleases characterized to date have been demonstrated to work with a single gRNA and to process gRNA arrays. While Cas12a-type and Cas9 nuclease systems have proven highly impactful, neither system has been demonstrated to function as predictably as is desired to enable the full range of applications envisioned for gene-editing technologies.

In the current state, a range of efforts have attempted to engineer improved CRISPR editing systems having increased efficiency and accuracy, which have included engineering of the PAM specificity, stability, and sequence of the gRNA and-or the nuclease. For example, chemical modifications of CRISPR/Cas9 gRNA expected to increase gRNA stability was found to lead to a 3.8-fold higher indel frequencies in human cells. In addition, other studies included structure-guided mutagenesis of Cas12a and screened to identify variants with an increased range of recognized PAM sequences. These engineered AsCas12a recognized TYCV and TATV PAMs in addition to the established TTTV sequence, with enhanced activities in vitro and in tested human cells.

One version of the CRISPR/Cas system, CRISPR/Cas9, has been modified to provide useful tools for editing targeted genomes. By delivering the Cas9 nuclease complexed with a synthetic guide RNA (gRNA) into a cell, the cell's genome can be cut/edited at a predetermined location, allowing existing genes to be removed and/or new ones added. These systems are useful but have some important limitations regarding efficiency and accuracy of targeted editing, imprecise editing complications, as well as, impediments when used for commercially relevant situations such as gene replacement. Therefore, a need exists for improved nucleic acid guided nuclease systems for directed and accurate editing with improved efficiency.

SUMMARY OF THE DISCLOSURE

Embodiment 1 provides a composition comprising (i) an engineered nucleic acid-guided nuclease comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 143-177 and 229, or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 143-177 and 229. Embodiment 2. The composition of embodiment 1 comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 144, 153, and 229, or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 144, 153, and 229. Embodiment 3. The composition of embodiments 1 or 2 comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 144 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 144. Embodiment 4. The composition of any previous claim comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 153 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 153. Embodiment 5. The composition of any previous claim comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 229 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 229. Embodiment 6. The composition of any previous Embodiment wherein the sequence identity is at least 80%. Embodiment 7. The composition of any previous Embodiment wherein the sequence identity is at least 95%. Embodiment 8. The composition of any previous Embodiment wherein the sequence identity is 100%. Embodiment 9. The composition of Embodiment 1 wherein the engineered nuclease polypeptide does not contain the peptide motif YLFQIYNKDF (SEQ ID NO. 224) or a polynucleotide or polynucleotides encoding the engineered nuclease polypeptide that does not contain the peptide motif YLFQIYNKDF (SEQ ID NO. 224). Embodiment 10. The composition of Embodiment 9 comprising an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229. Embodiment 11. The composition of Embodiment 10 comprising an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 149, 151, 175, and 177 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 149, 151, 175, and 177. Embodiment 12. A composition comprising a targetable guide nucleic acid-guided nuclease complex comprising an engineered guide nucleic acid nuclease of any previous Embodiment and further comprising (ii) a compatible guide nucleic acid. Embodiment 13. The composition of Embodiment 12 wherein the guide nucleic acid is a gRNA and the complex is an RNP. Embodiment 14. The composition of Embodiment 12 or 13 wherein the guide nucleic acid is a split guide nucleic acid. Embodiment 15. The composition of Embodiment 13 or 14 wherein the gRNA is an engineered gRNA. Embodiment 16. The composition of Embodiment 15 wherein the engineered gRNA comprises a conserved gRNA. Embodiment 17. The composition of Embodiment 16 wherein the conserved gRNA comprises any one of SEQ ID NO: 291-325, or a portion thereof. Embodiment 18. The composition of Embodiment 17 wherein the conserved gRNA comprises a portion of any one of SEQ ID NO: 291-325. Embodiment 19. The composition of Embodiment 18 wherein the portion is a highly conserved portion comprising a nucleotide sequence for secondary structure of the RNA. Embodiment 20. The composition of Embodiment 18 wherein the secondary structure comprises a pseudoknot. Embodiment 21. The composition of any of Embodiments 13 to 20 wherein the gRNA is a synthetic gRNA. Embodiment 22. The composition of Embodiment 21 wherein the gRNA comprises one or more chemical modifications. Embodiment 23. A method of creating a strand break at or near a target sequence in a target polynucleotide comprising contacting the target sequence with a targetable nucleic acid-guided nuclease complex of any one of Embodiment 12-22, wherein the compatible guide nucleic acid of the complex targets the target sequence, and allowing the targetable guide nucleic acid-guided nuclease complex to create the strand break. Embodiment 24. The method of Embodiment 23 wherein the target polynucleotide is in a cellular genome. Embodiment 25. The method of Embodiment 23 or 24 further comprising providing an editing template to be inserted in the target sequence. Embodiment 26. The method of Embodiment 25 wherein the editing template comprises a transgene. Embodiment 27. The method of any of Embodiment 23-27 wherein the target polynucleotide is a safe harbor site. Embodiment 28. A cell created by the Embodiment of claim 23. Embodiment 29. An organism created by the method of Embodiment 23. Embodiment 30. A composition comprising an engineered polynucleotide or polynucleotides comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any one of SEQ ID NO: SEQ ID NO: 1-142 and 225-228. Embodiment 31. The composition of Embodiment 30 comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any one of SEQ ID NO: 1, 5, 11, 15, 19, 23, 27, 31, 35, 39, 43, 47, 51, 55, 59, 63, 67, 71, 75, 79, 83, 87, 91, 95, 99, 103, 107, 111, 115, 119, 123, 127, 131, 135, 139, and 225. Embodiment 32. The composition of Embodiment 30 or 31 wherein the polynucleotide codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus or both, of a polypeptide encoded by the polynucleotide. Embodiment 33. The composition of Embodiment 32 wherein the additional amino acid sequences comprise at least one of (i) one or more NLSs; (ii) one or more purification tags(iii) one or cleavage sequences; and (iv) FLAG or 3×FLAGEmbodiment 34. The composition of Embodiment 32 wherein the additional amino acid sequences comprise at least two of (i) one or more NLSs(ii) one or more purification tags(iii) one or cleavage sequences; and (iv) FLAG or 3×FLAGEmbodiment 35. The composition of Embodiment 32 wherein the additional amino acid sequences comprise at least three of (i) one or more NLSs(ii) one or more purification tags(iii) one or cleavage sequences; and (iv) FLAG or 3×FLAGEmbodiment 36. The composition of Embodiment 32 wherein the additional amino acid sequences comprise (i) one or more NLSs(ii) one or more purification tags(iii) one or cleavage sequences; an (iv) FLAG or 3×FLAGEmbodiment 37. The composition of any of Embodiment 30-36 wherein the polynucleotide or polynucleotides are codon optimized. Embodiment 38. The composition of Embodiment 37 wherein the polynucleotide or polynucleotides are codon optimized for E. coli. Embodiment 39. The composition of Embodiment 39 comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any of SEQ ID NO: 2, 6, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 226, and 330. Embodiment 40. The composition of Embodiment 37 wherein the polynucleotide or polynucleotides are codon optimized for S. cerivisiae. Embodiment 41. The composition of Embodiment 40 comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any of SEQ ID NO: 3, 7, 9, 13, 17, 21, 25, 29, 33, 37, 41, 45, 49, 53, 57, 61, 65, 69, 73, 77, 81, 85, 89, 93, 97, 101, 105, 109, 113, 117, 121, 125, 129, 133, 137, 141, and 227. Embodiment 42. The composition of Embodiment 37 wherein the polynucleotide or polynucleotides are codon optimized for human. Embodiment 43. The composition of Embodiment 42 comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any of SEQ ID NO: 3, 7, 9, 13, 17, 21, 25, 29, 33, 37, 41, 45, 49, 53, 57, 61, 65, 69, 73, 77, 81, 85, 89, 93, 97, 101, 105, 109, 113, 117, 121, 125, 129, 133, 137, 141, and 227Embodiment 44. The composition of any of Embodiments 30-43 wherein the sequence identity is at least 80%. Embodiment 45. The composition of any of Embodiments 30-43 wherein the sequence identity is at least 95%. Embodiment 46. The composition of any of Embodiments 30-43 wherein the sequence identity is 100%

INCORPORATION BY REFERENCE

All publications, patents, and patent applications mentioned in this specification are herein incorporated by reference to the same extent as if each individual publication, patent, or patent application was specifically and individually indicated to be incorporated by reference.

BRIEF DESCRIPTION OF THE DRAWINGS

The following drawings form part of the present specification and are included to further demonstrate certain embodiments of the present disclosure. Certain embodiments can be better understood by reference to one or more of these drawings in combination with the detailed description of specific embodiments presented herein.

FIG. 1 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ART1 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 2 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ART2 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 3 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ARTS nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 4 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ART6 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 5 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ART8 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 6 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ART9 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 7 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ART10 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 8 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ART11 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 9 is an exemplary graph illustrating a depletion assay to assess cutting efficiency of an ART11_L679F (ART11*) nucleic acid-guided nuclease of some embodiments disclosed herein

FIG. 10 is an exemplary histogram plot illustrating an experimental GalK editing assay to assess gene editing efficiency of an ART2 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 11 is an exemplary histogram plot illustrating an experimental GalK editing assay to assess gene editing efficiency of an ART11 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 12 is an exemplary histogram plot illustrating enrichment for various PAM sites of an ART11 nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 13 is an exemplary histogram plot illustrating enrichment for various PAM sites of an ART11_L679F nucleic acid-guided nuclease of some embodiments disclosed herein.

FIG. 14 shows % INDEL for guides tiled across TRAC gene for ART11 in Jurkat cells

DETAILED DESCRIPTION

Some embodiments disclosed herein concern novel nucleic acid-guided nucleases, guide nucleic acids (e.g. gRNAs), and targetable nuclease systems, and methods of use. In other embodiments, methods for making and using engineered non-naturally occurring nucleic acid-guided nucleases, guide nucleic acids, and targetable nuclease systems are disclosed. In some embodiments, targetable nuclease systems can be used to edit human genomes or genomes of other species. In some embodiments, nucleic acid-guided nucleases can include polypeptides having an amino acid sequence, e.g. a sequence represented by SEQ ID NO: 143-177 and 229; In embodiments, nucleic acid-guided nucleases can include polynucleotides encoding the nucleases, e.g., polynucleotides having a nucleic acid sequence represented by SEQ ID NO: 1-142 and 225-228. In embodiments, gRNAs can include a gRNA represented by one or more of SEQ ID NO: 178-188. In other embodiments, gRNAs can be represented by SEQ ID NO: 178-188. In other embodiments, gRNAs can include a split gRNA of use as a synthetic tracrRNA and cfRNA for methods and systems disclosed herein. Other sequences of use in embodiments disclosed herein are provided below.

In the following sections, various exemplary compositions and methods are described in order to detail various embodiments of the disclosure. It will be obvious to one of skill in the relevant art that practicing the various embodiments does not require the employment of all or even some of the details outlined herein, but rather that concentrations, times and other details may be modified through routine experimentation. In some cases, well-known methods or components have not been included in the description.

As used herein, the term “modulating” and “manipulating” of genome editing can mean an increase, a decrease, upregulation, downregulation, induction, a change in editing activity, a change in binding, a change cleavage or the like, of one or more of targeted genes or gene clusters of certain embodiments disclosed herein.

In certain embodiments of the present disclosure, there can be employed conventional molecular biology, microbiology, and recombinant DNA techniques within the skill of the art. Such techniques are explained fully in the literature and understood by those of skill in the art.

In other embodiments, primers used herein for preparation per conventional techniques can include sequencing primers and amplification primers. In some embodiments plasmids and oligomers used in conventional techniques can include synthesized oligomers and oligomer cassettes.

In some embodiments disclosed herein, nucleic acid-guided nuclease systems and methods of use are provided. A nuclease system can include transcripts and other elements involved in the expression of an engineered nuclease disclosed herein, which can include sequences encoding a novel engineered nucleic acid-guided nuclease protein and a guide sequence (gNA, e.g., gRNA) or a novel gNA, e.g. novel gRNA as disclosed herein. In some embodiments, nucleic acid-guided nuclease systems can include at least one CRISPR-associated nucleic acid guided nuclease construct, the disclosure of which are provided herein. In other embodiments, nucleic acid-guided nuclease systems can include at least one known sequence, e.g., at least one known guide sequence or at least one known scaffold sequence in a gNA (e.g., gRNA) or at least one novel gNA, e.g., gRNA. In some embodiments, an engineered nucleic acid-guided nuclease of the instant invention can be used in systems for editing a gene of interest in humans or other species.

Bacterial and archaeal targetable nuclease systems have emerged as powerful tools for precision genome editing. However, naturally occurring nucleases have some limitations including expression and delivery challenges due to the nucleic acid sequence and protein size. In certain embodiments, novel engineered nucleic acid-guided nuclease constructs disclosed herein can be created for altered targeting of a targeted gene and/or increased efficiency and/or accuracy of targeted gene editing in a subject. Other uses for novel engineered nucleic acid-guided nuclease constructs disclosed herein can be, e.g., those disclosed herein.

In accordance with these embodiments, it is known that Cas12a is a single RNA-guided CRISPR/Cas endonuclease capable of genome editing having differing features when compared to Cas9. In certain embodiments, a Cas12a-based system allow fast and reliable introduction of donor DNA into a genome. In addition, Cas12a broadens genome editing. CRISPR/Cas12a genome editing has been evaluated in human cells as well as other organisms including plants. Several features of the CRISPR/Cas12a system are different when compared to CRISPR/Cas9.

It is known that Cas12a nuclease recognizes T-rich protospacer adjacent motif (PAM) sequences (e.g. 5′-TTTN-3′ (AsCas12a, LbCas12a) and 5′-TTN-3′ (FnCas12a); whereas, the comparable sequence for SpCas9 is NGG. The PAM sequence of Cas12a is located at the 5′ end of the target DNA sequence, where it is at the 3′ end for Cas9. In addition, Cas12a is capable of cleaving DNA distal to its PAM around the +18/+23 position of the protospacer. This cleavage creates a staggered DNA overhang (e.g. sticky ends), whereas Cas9 cleaves close to its PAM after the 3′ position of the protospacer at both strands and creates blunt ends. In certain methods, creating altered recognition of nucleases can provide an improvement over Cas9 or Cas12a to improve accuracy. Further, in certain embodiments herein, Cas12a can be guided by a single crRNA (gRNA) and does not require a tracrRNA, resulting in a shorter gRNA sequence than the sgRNA used by Cas9; in certain embodiments herein, Cas12a can be guided by a split gRNA, e.g., a split gRNA that is a synthesized gRNA, a split gRNA comprising modulated nucleotides, or other engineered split gRNA, rather than by a single gRNA as seen in Cas12a; or other engineered split gRNA as disclosed herein.

It is also known that Cas12a displays additional ribonuclease activity that functions in crRNA (gRNA, e.g., split gRNA such as an engineered split gRNA) processing. Cas12a is used as an editing tool for different species (e.g. S. cerevisiae), allowing the use of an alternative PAM sequence compared with the one recognized by CRISPR/Cas9. Novel nucleases disclosed herein can further recognize the same or alternative PAM sequences. These novel nucleases can provide an alternative system for multiplex genome editing as compared with known multiplex approaches and can be used as an improved system in mammalian gene editing. Other implications of gRNA processing can be as discussed herein, e.g., production of a gRNA, e.g., split gRNA such as an engineered split gRNA, that comprises a conserved or highly conserved RNA sequence, which can be a sequence important to secondary structure in an RNA for a particular nuclease, e.g., secondary structure such as a pseudoknot region, and or other implications as discussed herein.

Well-known Cas12a protein-RNA complexes recognize a T-rich PAM and cleavage leads to a staggered DNA double-stranded break. Cas12a-type nuclease interacts with the pseudoknot structure formed by the 5′-handle of crRNA. A guide RNA segment, composed of a seed region and the 3′ terminus, possesses complementary binding sequences with the target DNA sequences. Cas12a type nucleases characterized to date have been demonstrated to work with a single gRNA and to process gRNA arrays. While Cas12a-type and Cas9 nuclease systems have proven highly impactful, neither system has been demonstrated to function as predictably as is desired to enable the full range of applications envisioned for gene-editing technologies.

In the current state, a range of efforts have attempted to engineer improved CRISPR editing systems having increased efficiency and accuracy, which have included engineering of the PAM specificity, stability, and sequence of the gRNA and-or the nuclease. For example, chemical modifications of CRISPR/Cas9 gRNA expected to increase gRNA stability was found to lead to a 3.8-fold higher indel frequencies in human cells. In addition, other studies included structure-guided mutagenesis of Cas12a and screened to identify variants with an increased range of recognized PAM sequences. These engineered AsCas12a recognized TYCV and TATV PAMs in addition to the established TTTV sequence, with enhanced activities in vitro and in tested human cells.

Cas12a-like nucleases and engineered Cas12a-like nucleases (engineered designer nucleases) and gNAs, e.g., gRNAs such as engineered gNAs, e.g., gRNAs disclosed herein are contemplated of use in bacteria, other prokaryotes. In other embodiments, engineered designer nucleases are contemplated of use in eukaryotes such as single celled eukaryotes, e.g., yeast, mammals as well as of use in birds and fish. In certain embodiments, engineered designer nucleases are contemplated for use in human cells. In accordance with these embodiments, these constructs are created in order to, e.g, alter certain features of the wild-type gRNA sequences while preserving other desirable features compared to the control the gRNAs are derived from.

In certain embodiments, engineered gRNA constructs of embodiments disclosed herein can be created from Cas12as gRNAs known in the art or not yet discovered and can include, but are not limited to, Acidaminococcus massiliensis sp. (e.g. AM_Cas12a strain Marseille-P2828), Sedimentisphaera cyanobacteriorum sp. (SC_Cas12a, strain L21-RPul-D3), Barnesiella sp. An22 (B_Cas12a; An22 An22), Bacteroidetes bacterium HGW-Bacteroidetes-6 sp. XS5, (BB_Cas12a, 08E140001), Parabacteroides distasonis sp. (PD_Cas12a, strain 8-P5) Collinsella tanakaei sp. (CT_Cas12a, isolate CIM:MAG 294), Lachnospiraceae bacterium MC2017 sp. (LBS_Cas12a, T350), Coprococcus sp. AF16-5 (Co_Cas12a, AF16-5 AF16-5.Scaf1); or Catenovulum sp. CCB-QB4 (Ca_Cas12a, species CCB-QB4) Eubacterium rectale, (a positive control is a derivative of this Cas12a), Flavobacterium branchiophilum (FB_Cas12a), and/or a synthetic construct (SC_Cas12a) or similar. In certain embodiments, constructs can include 60% or less identity to the known Cas12as to create a novel nuclease. In certain embodiments, novel Cas12a derived constructs can include constructs with reduced off-targeting rates and/or improved editing functions compared to a control or wild-type Cas12a nuclease.

In some embodiments, off-targeting rates for nuclease constructs disclosed herein can be reduced compared to a control for improved editing. For example, off-targeting rates can be readily tested. In accordance with these embodiments, a wild-type gRNA plasmid can be used to assess baseline off-target editing compared to experimentally designed gRNAs to assess accuracy of novel nucleases compared to control Cas12a nucleases or other nucleases known in the art as a positive control (e.g. MAD7). In some embodiments, nuclease constructs disclosed herein can share conserved encoded motifs of known nucleases. In other embodiments, nuclease constructs disclosed herein do not share conserved encoded peptide motifs with known nucleases. In certain embodiments, nuclease constructs disclosed herein do not encode the peptide motif YLFQIYNKDF (SEQ ID NO. 224) within the encoded nuclease. In certain embodiments, nucleic acid-guided nuclease constructs disclosed herein do not encode the peptide motif YLFQIYNKDF and can include polypeptides represented by SEQ ID NO. 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229. In other embodiments, nucleic acid-guided nuclease construct polypeptides disclosed herein include the peptide motif YLFQIYNKDF (SEQ ID NO. 224). In some embodiments, nucleic acid-guided nuclease construct polypeptides disclosed herein include the peptide motif YLFQIYNKDF and can be represented by the polypeptide represented by SEQ ID NO. 152-160, 164, 167, 168, 170, and 176.

In certain methods, spacer mutations can be introduced to a plasmid to test when a substitution gRNA sequence is created or a deletion or insertion mutant. Each of these plasmid constructs can be used to test genome editing accuracy and efficiency, for example, with deletions, substitutions or insertions.

Alternatively, nuclease constructs created by compositions and methods disclosed herein can be tested for optimal genome editing time on a select target by observing editing efficiencies over pre-determined time periods.

Examples of target polynucleotides for use of engineered nucleic acid guided nucleases disclosed herein can include a sequence/gene or gene segment associated with a signaling biochemical pathway, e.g., a signaling biochemical pathway-associated gene or polynucleotide. Other embodiments contemplated herein concern examples of target polynucleotides related to a disease-associated gene or polynucleotide.

A “disease-associated” or “disorder-associated” gene or polynucleotide can refer to any gene or polynucleotide which results in a transcription or translation product at an abnormal level compared to a control or leads to an abnormal form in cells derived from disease-affected tissues compared with tissues or cells of a non-disease control. It may be a gene that becomes expressed at an abnormally high level; it may be a gene that becomes expressed at an abnormally low level, or where the gene contains one or more mutations and where altered expression or expression directly correlates with the occurrence and/or progression of a health condition or disorder. A disease or disorder-associated gene can refer to a gene possessing mutation(s) or genetic variation that are directly responsible or is in linkage disequilibrium with a gene(s) that is responsible for the cause or progression of a disease or disorder. The transcribed or translated products may be known or unknown, and may be at a normal or abnormal level.

It is understood by one of skill in the relevant art that examples of disease-associated genes and polynucleotides are available from. McKusick-Nathans Institute of Genetic Medicine, Johns Hopkins University (Baltimore, Md.) and National Center for Biotechnology Information, National Library of Medicine (Bethesda, Md.), available on the World Wide Web. Further examples of genetic disorders and disorder-associated conditions, genetic disorders, or disclosed herein.

Genetic Disorders contemplated herein can include, but are not limited to:

-   -   Neoplasia: Genes linked to this disorder: PTEN; ATM; ATR; EGFR;         ERBB2; ERBB3; ERBB4; Notchl; Notch2; Notch3; Notch4; AKT; AKT2;         AKT3; HIF; HIFI a; HIF3a; Met; HRG; Bc12; PPAR alpha; PPAR         gamma; WT1 (Wilms Tumor); FGF Receptor Family members (5         members: 1, 2, 3, 4, 5); CDKN2a; APC; RB (retinoblastoma); MEN1;         VHL; BRCA1; BRCA2; AR (Androgen Receptor); TSG101; IGF; IGF         Receptor; Igfl (4 variants); Igf2 (3 variants); Igf 1 Receptor;         Igf 2 Receptor; Bax; Bc12; caspases family (9 members:1, 2, 3,         4, 6, 7, 8, 9, 12); Kras; Apc;     -   Age-related Macular Degeneration: Genes linked to these         disorders Abcr; Cc12; Cc2; cp (cemloplasmin); Timp3; cathepsinD;         VIdlr; Ccr2;     -   Schizophrenia Disorders: Genes linked to this disorder:         Neuregulinl (Nrgl); Erb4 (receptor for Neuregulin); Complexinl         (Cp1x1); Tphl Tryptophan hydroxylase; Tph2 Tryptophan         hydroxylase 2; Neurexin 1; GSK3; GSK3a; GSK3b;     -   Trinucleotide Repeat Disorders: Genes linked to this disorder: 5         HTT (Huntington's Dx); SBMA/SMAX1/AR (Kennedy's Dx); FXN/X25         (Friedrich's Ataxia); ATX3 (Machado-Joseph's Dx); ATXN1 and         ATXN2 (spinocerebellar ataxias); DMPK (myotonic dystrophy);         Atrophin-1 and Atnl (DRPLA Dx); CBP (Creb-BP—global         instability); VLDLR (Alzheimer's); Atxn7; Atxn10;     -   Fragile X Syndrome: Genes linked to this disorder: FMR2; FXR1;         FXR2; mGLURS;     -   Secretase Related Disorders: Genes linked to this disorder:         APH-1 (alpha and beta); Presenil n (Psenl); nicastrin (Ncstn);         PEN-2;     -   Others: Genes linked to this disorder: Nosl; Paipl; Nati; Nat2;     -   Prion—related disorders: Gene linked to this disorder: Prp;     -   ALS: Genes linked to this disorder: SOD1; ALS2; STEX; FUS;         TARDBP; VEGF (VEGF-a; VEGF-b; VEGF-c);     -   Drug addiction: Genes linked to this disorder: Prkce (alcohol);         Drd2; Drd4; ABAT (alcohol); GRIA2; GrmS; Grinl; Htrlb; Grin2a;         Drd3; Pdyn; Grial (alcohol);     -   Autism: Genes linked to this disorder: Mecp2; BZRAP1; MDGA2;         SemaSA; Neurexin 1; Fragile X (FMR2 (AFF2); FXR1; FXR2; MglurS);     -   Alzheimer's Disease Genes linked to this disorder: El; CHIP;         UCH; UBB; Tau; LRP; PICALM; Clusterin; PS1; SORL1; CR1; VIdlr;         Ubal; Uba3; CHIP28 (Aqp1, Aquaporin 1); Uchll; Uch13; APP;     -   Inflammation and Immune-related disorders Genes linked to this         disorder: IL-10; IL-1 (IL-la; IL-1b); IL-13; IL-17 (IL-17a         (CTLA8); IL-17b; IL-17c; IL-17d; IL-17f); 11-23; Cx3crl; ptpn22;         TNFa; NOD2/CARD15 for IBD; IL-6; IL-12 (IL-12a; IL-12b); CTLA4;         Cx3c11, AAT deficiency/mutations, AIDS (KIR3DL1, NKAT3, NKB1,         ANIB11, KIR3DS1, IFNG, CXCL12, SDF1); Autoimmune         lymphoproliferative syndrome (TNFRSF6, APT1, FAS, CD95, ALPS1A);         Combined immunodeficiency, (IL2RG, SCIDX1, SCIDX, IMD4); HIV-1         (CCLS, SCYAS, D17S136E, TCP228), HIV susceptibility or infection         (IL10, CSIF, CMKBR2, CCR2, CMKBRS, CCCKRS (CCRS));         Immunodeficiencies (CD3E, CD3G, AICDA, AID, HIGM2, TNFRSFS,         CD40, UNG, DGU, HIGM4, TNFSFS, CD4OLG, HIGM1, IGM, FOXP3, IPEX,         AIID, XPID, PIDX, TNFRSF14B, TACI); Inflammation (IL-10, IL-1         (IL-la, IL-1b), IL-13, IL-17 (IL-17a (CTLA8), IL-17b, IL-17c,         IL-17d, IL-17f), 11-23, Cx3crl, ptpn22, TNFa, NOD2/CARD15 for         IBD, IL-6, IL-12 (IL-12a, IL-12b), CTLA4, Cx3c11); Severe         combined immunodeficiencies (SCIDs)(JAK3, JAKL, DCLRE1C,         ARTEMIS, SCIDA, RAG1, RAG2, ADA, PTPRC, CD45, LCA, IL7R, CD3D,         T3D, IL2RG, SCIDX1, SCIDX, IMD4);     -   Parkinson's, Genes linked to this disorder: x-Synuclein; DJ-1;         LRRK2; Parkin; PINK1;     -   Blood and coagulation disorders: Genes linked to these         disorders: Anemia (CDAN1, CDA1, RPS19, DBA, PKLR, PK1, NT5C3,         UMPH I, PSN1, RHAG, RH50A, NRAMP2, SPTB, ALAS2, ANH I, ASB,         ABCB7, ABC7, ASAT); Bare lymphocyte syndrome (TAPBP, TPSN, TAP2,         ABCB3, PSF2, RINGI 1, MHC2TA, C2TA, RFXS, RFXAP, RFXS), Bleeding         disorders (TBXA2R, P2RX I, P2X I); Factor H and factor H-like 1         (HF1, CFH, HUS); Factor V and factor VIII (MCFD2); Factor VII         deficiency (F7); Factor X deficiency (F10); Factor XI deficiency         (F11); Factor XII deficiency (F12, HAF); Factor XIIIA deficiency         (F13A1, F13A); Factor XIIIB deficiency (F13B); Fanconi anemia         (FANCA, FACA, FA1, FA, FAA, FAAP95, FAAP90, F1134064, FANCB,         FANCC, FACC, BRCA2, FANCD1, FANCD2, FANCD, FACD, FAD, FANCE,         FACE, FANCF, XRCC9, FANCG, BRIP1, BACH1, FANCJ, PHF9, FANCL,         FANCM, ICIAA1596); Hemophagocytic lymphohistiocytosis disorders         (PRF1, HPLH2, UNC13D, MUNC13-4, HPLH3, HLH3, FHL3); Hemophilia A         (F8, F8C, HEMA); Hemophilia B (F9, HEMB), Hemorrhagic disorders         (PI, ATT, F5); Leukocyde deficiencies and disorders (ITGB2,         CD18, LCAMB, LAD, EIF2B1, EIF2BA, EIF2B2, EIF2B3, EIF2B5, LVWM,         CACH, CLE, EIF2B4); Sickle cell anemia (HBB); Thalassemia (HBA2,         HBB, HBD, LCRB, HBA1);     -   Cell dysregulation and oncology disorders: Genes linked to these         disorders: B-cell non-Hodgkin lymphoma (BCL7A, BCL7); Leukemia         (TALI TCL5, SCL, TAL2, FLT3, NBS 1, NBS, ZNFNIAI, IK1, LYF1,         HOXD4, HOX4B, BCR, CML, PHL, ALL, ARNT, KRAS2, RASK2, GMPS,         AFIO, ARHGEFI2, LARG, KIAA0382, CALM, CLTH, CEBPA, CEBP, CHIC2,         BTL, FLT3, KIT, PBT, LPP, NPM1, NUP214, D9S46E, CAN, CAIN, RUNX         1, CBFA2, AML1, WHSC 1 LI, NSD3, FLT3, AF1Q, NPM 1, NUMA1,         ZNF145, PLZF, PML, MYL, STATSB, AFI 0, CALM, CLTH, ARLI 1,         ARLTS1, P2RX7, P2X7, BCR, CML, PHL, ALL, GRAF, NFI, VRNF, WSS,         NFNS, PTPNI 1, PTP2C, SHP2, NS 1, BCL2, CCND1, PRAD1, BCL1,         TCRA, GATA1, GF1, ERYF1, NFE1, ABL1, NQO1, DIA4, NMOR1, NUP2I4,         D9S46E, CAN, CAIN);     -   Metabolic, liver, kidney disorders: Genes linked to these         disorders: Amyloid neuropathy (TTR, PALS); Amyloidosis (APOA1,         APP, AAA, CVAP, AD1, GSN, FGA, LYZ, UR, PALS); Cirrhosis (KATI         8, KRT8, CaHlA, NAIC, TEX292, KIAA1988); Cystic fibrosis (CFTR,         ABCC7, CF, MRP7); Glycogen storage diseases (SLC2A2, GLUT2,         G6PC, G6PT, G6PT1, GAA, LAMP2, LAMPS, AGL, GDE, GBE1, GYS2,         PYGL, PFKM); Hepatic adenoma, 142330 (TCF1, HNF1A, MODY3),         Hepatic failure, early onset, and neurologic disorder (SCOD1,         SCO1), Hepatic lipase deficiency (LIPC), Hepatoblastoma, cancer         and carcinomas (CTNNB1, PDGFRL, PDGRL, PRLTS, AXIN1, AXIN,         CTNNB1, TP53, P53, LFS1, IGF2R, MPRI, MET, CASP8, MCHS;         Medullary cystic kidney disease (UMOD, HNFJ, FJHN, MCKD2,         ADMCKD2); Phenylketonuria (PAH, PKU1, QDPR, DHPR, PTS);         Polycystic kidney and hepatic disease (FCYT, PKHD1, ARPKD, PKD2,         PKD4, PKDTS, PRKCSH, G19P1, PCLD, SEC63);     -   Muscular/Skeletal Disorders: Genes linked to these disorders:         Becker muscular dystrophy (DMD, BMD, MYF6), Duchenne Muscular         Dystrophy (DMD, BMD); Emery-Dreifuss muscular dystrophy (LMNA,         LMN1, EMD2, FPLD, CMD1A, HGPS, LGMD1B, LMNA, LMN1, EMD2, FPLD,         CMD1A); Facioscapulohumeral muscular dystrophy (FSHMD1A,         FSHD1A); Muscular dystrophy (FKRP, MDC1C, LGMD2I, LAMA2, LAMM,         LARGE, KIAA0609, MDC1D, FCMD, TTID, MYOT, CAPN3, CANP3, DYSF,         LGMD2B, SGCG, LGMD2C, DMDA1, SCG3, SGCA, ADL, DAG2, LGMD2D,         DMDA2, SGCB, LGMD2E, SGCD, SGD, LGMD2F, CMD1L, TCAP, LGMD2G,         CMD1N, TRIM32, HT2A, LGMD2H, FKRP, MDC1C, LGMD2I, TTN, CMD1G,         TMD, LGMD2J, POMT1, CAV3, LGMD1C, SEPN1, SELN, RSMD1, PLEC1,         PLTN, EBS1); Osteopetrosis (LAPS, BMND1, LRP7, LR3, OPPG, VBCH2,         CLCN7, CLC7, OPTA2, OSTM1, GL, TCIRG1, TIRC7, 0C116, OPTB1);         Muscular atrophy (VAPB, VAPC, ALS8, SMN1, SMA1, SMA2, SMA3,         SMA4, BSCL2, SPG17, GARS, SMAD1, CMT2D, HEXB, IGHMBP2, SMUBP2,         CATF1, SMARD1);     -   Neurological and Neuronal disorders: Genes linked to these         disorders: ALS (SOD1, ALS2, STEX, FUS, TARDBP, VEGF (VEGF-a,         VEGF-b, VEGF-c); Alzheimer disease (APP, AAA, CVAP, AD1, APOE,         AD2, PSEN2, AD4, STM2, APBB2, FE65L1, NOS3, PLAU, URK, ACE,         DCPI, ACEI, MPO, PACIP1, PAXIPIL, PTIP, A2M, BLMH, BMH, PSEN1,         AD3); Autism (Mecp2, BZRAP I, MDGA2, Sema5A, Neurex 1, GLO1,         MECP2, RTT, PPMX, MRX16, MRX79, NLGN3, NLGN4, KIAA1260, AUTSX2);         Fragile X Syndrome (FMR2, FXR1, FXR2, mGLUR5); Huntington's         disease and disease like disorders (HD, IT15, PRNP, PRIP, JPH3,         JP3, HDL2, TBP, SCA17); Parkinson disease (NR4A2, NURR1, NOT,         TINUR, SNCAIP, TBP, SCA17, SNCA, NACP, PARK1, PARK4, DJ1, PARK7,         LRRK2, PARKS, PINK1, PARK6, UCHL1, PARKS, SNCA, NACP, PARK1,         PARK4, PRKN, PARK-2, PDJ, DBH, NDUFV2); Rett syndrome (MECP2,         RTT, PPMX, MRX16, MRX79, CDKLS, STK9, MECP2, RTT, PPMX, MRX16,         MRX79, x-Synuclein, DJ-1); Schizophrenia (Neuregulinl (Nrgl),         Erb4 (receptor for Neuregulin), Complexinl (Cp1x1), Tphl         Tryptophan hydroxylase, Tph2, Tryptophan hydroxylase 2, Neurexin         1, GSK3, GSK3a, GSK3b, 5-HTT (S1c6a4), COMT, DRD (Drd la),         SLC6A3, DAOA, DTNBP1, Dao (Daol)); Secretase Related Disorders         (APH-1 (alpha and beta), Preseni I in (Psenl), nicastrin,         (Ncstn), PEN-2, Nosl, Parpl, Natl, Nat2); Trinucleotide Repeat         Disorders (HTT (Huntington's Dx), SBMA/SMAX1/AR (Kennedy's Dx),         FXN/X25 (Friedrich's Ataxia), ATX3 (Machado-Joseph's Dx), ATXN1         and ATXN2 (spinocerebellar ataxias), DMPK (myotonic dystrophy),         Atrophin-1 and Atnl (DRPLA Dx), CBP (Creb-BP—global         instability), VLDLR (Alzheimer's), Atxn7, Atxn10);     -   Occular-related disorders: Genes linked to these disorders:         Age-related macular degeneration (Aber, Cc12, Cc2, cp         (ceruloplasmin), Timp3, cathepsinD, Vldlr, Ccr2); Cataract         (CRYAA, CRYA1, CRYBB2, CRYB2, PITX3, BFSP2, CP49, CP47, CRYAA,         CRYA1, PAX6, AN2, MGDA, CRYBA1, CRYB1, CRYGC, CRYG3, CCL, LIM2,         MP19, CRYGD, CRYG4, BFSP2, CP49, CP47, HSF4, CTM, HSF4, CTM,         MIP, AQPO, CRYAB, CRYA2, CTPP2, CRYBB1, CRYGD, CRYG4, CRYBB2,         CRYB2, CRYGC, CRYG3, CCL, CRYAA, CRYA1, GJA8, CX50, CAE1, GJA3,         CX46, CZP3, CAE3, CCM1, CAM, KRIT1); Corneal clouding and         dystrophy (APOA1, TGFBI, CSD2, CDGG1, CSD, BIGH3, CDG2, TACSTD2,         TROP2, M1S1, VSX1, RINX, PPCD, PPD, KTCN, COL8A2, FECD, PPCD2,         PIP5K3, CFD); Cornea plana congenital (KERA, CNA2); Glaucoma         (MYOC, TIGR, GLC1A, JOAG, GPOA, OPTN, GLC1E, FIP2, HYPL, NRP,         CYP1B1, GLC3A, OPAL, NTG, NPG, CYP1B1, GLC3A); Leber congenital         amaurosis (CRB1, RP12, CRX, CORD2, CRD, RPGRIP1, LCA6, CORD9,         RPE65, RP20, AIPL1, LCA4, GUCY2D, GUC2D, LCA1, CORD6, RDH12,         LCA3); Macular dystrophy (ELOVL4, ADMD, STGD2, STGD3, RDS, RP7,         PRPH2, PRPH, AVMD, AOFMD, VMD2);     -   P13K/AKT Cellular Signaling disorders: Genes linked to these         disorders: PRKCE; ITGAM; ITGA5; IRAK1; PRKAA2; EIF2AK2; PTEN;         EIF4E; PRKCZ; GRK6; MAPK1; TSC1; PLK1; AKT2; IKBKB; PIK3CA;         CDK8; CDKN1B; NFKB2; BCL2; PIK3CB; PPP2R1A; MAPK8; BCL2L1;         MAPK3; TSC2; ITGAl; KRAS; EIF4EBP1; RELA; PRKCD; NOS3; PRKAA1;         MAPK9; CDK2; PPP2CA; PIM1; ITGB7; YWHAZ; ILK; TP53; RAF1; IKBKG;         RELB; DYRK1A; CDKN1A; ITGB1; MAP2K2; JAK1; AKT1; JAK2; PIK3R1;         CHUK; PDPK1; PPP2R5C; CTNNB1; MAP2K1; NFKB1; PAK3; ITGB3; CCND1;         GSK3A; FRAP1; SFN; ITGA2; TTK; CSNK1A1; BRAF; GSK3B; AKT3;         FOXO1; SOK; HS P9OAA1; RP S 6KB1;     -   ERK/MAPK Cellular Signaling disorders: Genes linked to these         disorders: PRKCE; ITGAM; ITGA5; HSPB1; IRAK1; PRKAA2; EIF2AK2;         RAC1; RAP1A; TLN1; EIF4E; ELK1; GRK6; MAPK1; RAC2; PLK1; AKT2;         PIK3CA; CDK8; CREB1; PRKCI; PTK2; FOS; RPS6KA4; PIK3CB; PPP2R1A;         PIK3C3; MAPK8; MAPK3; ITGAl; ETS1; KRAS; MYCN; EIF4EBP1; PPARG;         PRKCD; PRKAA1; MAPK9; SRC; CDK2; PPP2CA; PIM1; PIK3C2A; ITGB7;         YWHAZ; PPP1CC; KSR1; PXN; RAF1; FYN; DYRK1A; ITGB1; MAP2K2;         PAK4; PIK3R1; STAT3; PPP2R5C; MAP2K1; PAK3; ITGB3; ESR1; ITGA2;         MYC; TTK; CSNK1A1; CRKL; BRAE; ATF4; PRKCA; SRF; STAT1; SGK;     -   Glucocorticoid Receptor Cellular Signaling disorders: Genes         linked to these disorders: RAC1; TAF4B; EP300; SMAD2; TRAF6;         PCAF; ELK1; MAPK1; SMAD3; AKT2; IKBKB; NCOR2; UBE2I; PIK3CA;         CREB1; FOS; HSPAS; NFKB2; BCL2; MAP3K14; STATSB; PIK3CB; PIK3C3;         MAPK8; BCL2L1; MAPK3; TSC22D3; MAPK10; NRIP1; KRAS; MAPK13;         RELA; STATSA; MAPK9; NOS2A; PBX1; NR3C1; PIK3C2A; CDKN1C; TRAF2;         SERPINE1; NCOA3; MAPK14; TNF; RAF1; IKBKG; MAP3K7; CREBBP;         CDKN1A; MAP2K2; JAK1; IL8; NCOA2; AKT1; JAK2; PIK3R1; CHUK;         STAT3; MAP2K1; NFKB1; TGFBR1; ESR1; SMAD4; CEBPB; JUN; AR; AKT3;         CCL2; MMP 1; STAT1; IL6; HSP9OAA1;     -   Axonal Guidance Cellular Signaling disorders: Genes linked to         these disorders: PRKCE; ITGAM; ROCK1; ITGA5; CXCR4; ADAM12;         IGF1; RAC1; RAP1A; El F4E; PRKCZ; NRP1; NTRK2; ARHGEF7; SMO;         ROCK2; MAPK1; PGF; RAC2; PTPN11; GNAS; AKT2; PIK3CA; ERBB2;         PRKCI; PTK2; CFL1; GNAQ; PIK3CB; CXCL12; PIK3C3; WNT11; PRKD1;         GNB2L1; ABL1; MAPK3; ITGA1; KRAS; RHOA; PRKCD; PIK3C2A; ITGB7;         GLI2; PXN; VASP; RAF1; FYN; ITGB1; MAP2K2; PAK4; ADAM17; AKT1;         PIK3R1; GUI; WNTSA; ADAM10; MAP2K1; PAK3; ITGB3; CDC42; VEGFA;         ITGA2; EPHA8; CRKL; RND1; GSK3B; AKT3; PRKCA;     -   Ephrin Recptor Cellular Signaling disorders: Genes linked to         these disorders: PRKCE; ITGAM; ROCK1; ITGA5; CXCR4; IRAK1;         PRKAA2; EIF2AK2; RAC1; RAP1A; GRK6; ROCK2; MAPK1; PGF; RAC2;         PTPN11; GNAS; PLK1; AKT2; DOK1; CDK8; CREB1; PTK2; CFL1; GNAQ;         MAP3K14; CXCL12; MAPK8; GNB2L1; ABL1; MAPK3; ITGA1; KRAS; RHOA;         PRKCD; PRKAA1; MAPK9; SRC; CDK2; PIM1; ITGB7; PXN; RAF1; FYN;         DYRK1A; ITGB1; MAP2K2; PAK4, AKT1; JAK2; STAT3; ADAM10; MAP2K1;         PAK3; ITGB3; CDC42; VEGFA; ITGA2; EPHA8; TTK; CSNK1A1; CRKL;         BRAF; PTPN13; ATF4; AKT3; SGK;     -   Actin Cytoskeleton Cellular Signaling disorders: Genes linked to         these disorders: ACTN4; PRKCE; ITGAM; ROCK1; ITGA5; IRAK1;         PRKAA2; EIF2AK2; RAC1; INS; ARHGEF7; GRK6; ROCK2; MAPK1; RAC2;         PLK1; AKT2; PIK3CA; CDK8; PTK2; CFL1; PIK3CB; MYH9; DIAPH1;         PIK3C3; MAPK8; F2R; MAPK3; SLC9A1; ITGA1; KRAS; RHOA; PRKCD;         PRKAA1; MAPK9; CDK2; PIM1; PIK3C2A; ITGB7; PPP1CC; PXN; VIL2;         RAF1; GSN; DYRK1A; ITGB1; MAP2K2; PAK4; PIP5K1A; PIK3R1; MAP2K1;         PAK3; ITGB3; CDC42; APC; ITGA2; TTK; CSNK1A1; CRKL; BRAF; VAV3;         SGK;     -   Huntington's Disease Cellular Signaling disorders: Genes linked         to these disorders: PRKCE; IGF1; EP300; RCOR1; PRKCZ; HDAC4;         TGM2; MAPK1; CAPNS1; AKT2; EGFR; NCOR2; SP1; CAPN2; PIK3CA;         HDACS; CREB1; PRKC1; HS PAS; REST; GNAQ; PIK3CB; PIK3C3; MAPK8;         IGF1R; PRKD1; GNB2L1; BCL2L1; CAPN1; MAPK3; CASP8; HDAC2;         HDAC7A; PRKCD; HDAC11; MAPK9; HDAC9; PIK3C2A; HDAC3; TP53;         CASP9; CREBBP; AKT1; PIK3R1; PDPK1; CASP1; APAF1; FRAP1; CASP2;         JUN; BAX; ATF4; AKT3; PRKCA; CLTC; SGK; HDAC6; CASP3;     -   Apoptosis Cellular Signaling disorders: Genes linked to these         disorders: PRKCE; ROCK1; BID; IRAK1; PRKAA2; EIF2AK2; BAK1;         BIRC4; GRK6; MAPK1; CAPNS1; PLK1; AKT2; IKBKB; CAPN2; CDK8; FAS;         NFKB2; BCL2; MAP3K14; MAPK8; BCL2L1; CAPN1; MAPK3; CASP8; KRAS;         RELA; PRKCD; PRKAA1; MAPK9; CDK2; PIM1; TP53; TNF; RAF1; IKBKG;         RELB; CASP9; DYRK1A; MAP2K2; CHUK; APAF1; MAP2K1; NFKB1; PAK3;         LMNA; CASP2; BIRC2; TTK; CSNK1A1; BRAF; BAX; PRKCA; SGK; CASP3:         BTRC3: PARPI;     -   B Cell Receptor Cellular Signaling disorders: Genes linked to         these disorders: RAC1; PTEN; LYN; ELK1; MAPK1; RAC2; PTPN11;         AKT2; IKBKB; PIK3CA; CREB1; SYK; NFKB2; CAMK2A; MAP3K14; PIK3CB;         PIK3C3; MAPK8; BCL2L1; ABL1; MAPK3; ETS1; KRAS; MAPK13; RELA;         PTPN6; MAPK9; EGR1; PIK3C2A; BTK; MAPK14; RAF1; IKBKG; RELB;         MAP3K7; MAP2K2; AKT1; PIK3R1; CHUK; MAP2K1; NFKB1; CDC42; GSK3A;         FRAP1; BCL6; BCL10; JUN; GSK3B; ATF4; AKT3; VAV3; RPS6KB1;     -   Leukocyte Extravasation Cellular Signaling disorders: Genes         linked to these disorders: ACTN4; CD44; PRKCE; ITGAM; ROCK1;         CXCR4; CYBA; RAC1; RAP1A; PRKCZ; ROCK2; RAC2; PTPN11; MMP14;         PIK3CA; PRKCI; PTK2; PIK3CB; CXCL12; PIK3C3; MAPK8; PRKD1; ABL1;         MAPK10; CYBB; MAPK13; RHOA; PRKCD; MAPK9; SRC; PIK3C2A; BTK;         MAPK14; NOX1; PXN; VIL2; VASP; ITGB1; MAP2K2; CTNND1; PIK3R1;         CTNNB1; CLDN1; CDC42; FUR; ITK; CRKL; VAV3; CTTN; PRKCA; MMPl;         MMP9;     -   Integrin Cellular Signaling disorders: Genes linked to these         disorders: ACTN4; ITGAM; ROCK1; ITGA5; RAC1; PTEN; RAP1A; TLN1;         ARHGEF7; MAPK1; RAC2; CAPNS1; AKT2; CAPN2; PIK3CA; PTK2; PIK3CB;         PIK3C3; MAPK8; CAV1; CAPN1; ABL1; MAPK3; ITGAl; KRAS; RHOA; SRC;         PIK3C2A; ITGB7; PPP1CC; ILK; PXN; VASP; RAF1; FYN; ITGB1;         MAP2K2; PAK4; AKT1; PIK3R1; TNK2; MAP2K1; PAK3; ITGB3; CDC42;         RND3; ITGA2; CRKL; BRAF; GSK3B; AKT3;     -   Acute Phase Response Cellular Signaling disorders: Genes linked         to these disorders: IRAK1; SOD2; MYD88; TRAF6; ELK1; MAPK1;         PTPN11; AKT2; IKBKB; PIK3CA; FOS; NFKB2; MAP3K14; PIK3CB; MAPK8;         RIPK1; MAPK3; IL6ST; KRAS; MAPK13; IL6R; RELA; SOCS1; MAPK9;         FTL; NR3C1; TRAF2; SERPINE1; MAPK14; TNF; RAF1; PDK1; IKBKG;         RELB; MAP3K7; MAP2K2; AKT1; JAK2; PIK3R1; CHUK; STAT3; MAP2K1;         NFKB1; FRAP1; CEBPB; JUN; AKT3; IL1R1; IL6;     -   PTEN Cellular Signaling disorders: Genes linked to these         disorders: ITGAM; ITGA5; RAC1; PTEN; PRKCZ; BCL2L11; MAPK1;         RAC2; AKT2; EGFR; IKBKB; CBL; PIK3CA; CDKN1B; PTK2; NFKB2; BCL2;         PIK3CB; BCL2L1; MAPK3; ITGA1; KRAS; ITGB7; ILK; PDGFRB; INSR;         RAF1; IKBKG; CASP9; CDKN1A; ITGB1; MAP2K2; AKT1; PIK3R1; CHUK;         PDGFRA; PDPK1; MAP2K1; NFKB1; ITGB3; CDC42; CCND1; GSK3A; ITGA2;         GSK3B; AKT3; FOXO1; CASP3;     -   p53 Cellular Signaling disorders: Genes linked to these         disorders: RPS6KB1 PTEN; EP300; BBC3; PCAF; FASN; BRCA1;         GADD45A; BIRCS; AKT2; PIK3CA; CHEK1; TP53INP1; BCL2; PIK3CB;         PIK3C3; MAPK8; THBS 1; ATR; BCL2L1; E2F1; PMAIP1; CHEK2;         TNFASF10B; TP73; RB1; HDAC9; CDK2; PIK3C2A; MAPK14; TP53; LRDD;         CDKN1A; HIPK2; AKT1; PIK3R1; RAM2B; APAF1; CTNNB1; SIRT1; CCND1;         PRKDC; ATM; SFN; CDKN2A; JUN; SNAI2; GSK3B; BAX; AKT3;     -   Aryl Hydrocarbon Receptor Cellular Signaling disorders: Genes         linked to these disorders: HSPB1; EP300; FASN; TGM2; RXRA;         MAPK1; NQO1; NCOR2; SP1; ARNT; CDKN1B; FOS; CHEK1; SMARCA4;         NFKB2; MAPK8; ALDH1A1; ATR; E2F1; MAPK3; NRIP1; CHEK2; RELA;         TP73; GSTP1; RB1; SRC; CDK2; AHR; NFE2L2; NCOA3; TP53; TNF;         CDKN1A; NCOA2; APAF1; NFKB1; CCND1; ATM; ESR1; CDKN2A; MYC; JUN;         ESR2; BAX; IL6; CYP1B1; HSP9OAA1;     -   Xenobiotic Metabolism Cellular Signaling disorders: Genes linked         to these disorders: PRKCE; EP300; PRKCZ; RXRA; MAPK1; NQO1;         NCOR2; PIK3CA; ARNT; PRKCI; NFKB2; CAMK2A; PIK3CB; PPP2R1A;         PIK3C3; MAPK8; PRKD1; ALDH1A1; MAPK3; NRIP1; KRAS; MAPK13;         PRKCD; GSTP1; MAPK9; NOS2A; ABCB1; AHR; PPP2CA; FTL; NFE2L2;         PIK3C2A; PPARGC1A; MAPK14; TNF; RAF1; CREBBP; MAP2K2; PIK3R1;         PPP2R5C; MAP2K1; NFKB1; KEAP1; PRKCA; EIF2AK3; IL6; CYP1B1;         HSP9OAA1;     -   SAPL/JNK Cellular Signaling disorders: Genes linked to these         disorders: PRKCE; IRAK1; PRKAA2; EIF2AK2; RAC1; ELK1; GRK6;         MAPK1; GADD45A; RAC2; PLK1; AKT2; PIK3CA; FADD; CDK8; PIK3CB;         PIK3C3; MAPK8; RIPK1; GNB2L1; IRS1; MAPK3; MAPK10; DAXX; KRAS;         PRKCD; PRKAA1; MAPK9; CDK2; PIM1; PIK3C2A; TRAF2; TP53; LCK;         MAP3K7; DYRK1A; MAP2K2; PIK3R1; MAP2K1; PAK3; CDC42; JUN; TTK;         CSNK1A1; CRKL; BRAF; SGK;     -   PPAr/RXR Cellular Signaling disorders: Genes linked to these         disorders: PRKAA2; EP300; INS; SMAD2; TRAF6; PPARA; FASN; RXRA;         MAPK1; SMAD3; GNAS; IKBKB; NCOR2; ABCA1; GNAQ; NFKB2; MAP3K14;         STATSB; MAPK8; IASI; MAPK3; KRAS; RELA; PRKAA1; PPARGC1A; NCOA3;         MAPK14; INSR; RAF1; IKBKG; RELB; MAP3K7; CREBBP; MAP2K2; JAK2;         CHUK; MAP2K1; NFKB1; TGFBAl; SMAD4; JUN; IL1R1; PRKCA; IL6;         HSP9OAA1; ADIPOO;     -   NF-KB Cellular Signaling disorders: Genes linked to these         disorders: IRAK1; EIF2AK2; EP300; INS; MYD88; PRKCZ: TRAF6;         TBK1; AKT2; EGFR; IKBKB; PIK3CA; BTRC; NFKB2; MAP3K14; PIK3CB;         PIK3C3; MAPK8; RIPK1; HDAC2; KRAS; RELA; PIK3C2A; TRAF2; TLR4:         PDGFRB; TNF; INSR; LCK; IKBKG; RELB; MAP3K7; CREBBP; AKT1;         PIK3R1; CHUK; PDGFRA; NFKB1; TLR2; BCL10; GSK3B; AKT3; TNFAIP3;         IL1R1;     -   Neuregulin Cellular Signaling disorders: Genes linked to these         disorders: ERBB4; PRKCE; ITGAM; ITGA5: PTEN; PRKCZ; ELK1; MAPK1;         PTPN11; AKT2; EGFR; ERBB2; PRKCI; CDKN1B; STAT5B; PRKD1; MAPK3;         ITGA1; KRAS; PRKCD; STAT5A; SRC; ITGB7; RAF1; ITGB1; MAP2K2;         ADAM17; AKT1; PIK3R1; PDPK1; MAP2K1; ITGB3; EREG; FRAP1; PSEN1;         ITGA2; MYC; NRG1; CRKL; AKT3; PRKCA; HS P9OAA1; RPS6KB1;     -   Wnt and Beta catenin Cellular Signaling disorders: Genes linked         to these disorders: CD44; EP300; LRP6; DVL3; CSNK1E; GJA1; SMO;         AKT2; PIN1; CDH1; BTRC; GNAQ; MARK2; PPP2R1A; WNT11; SRC; DKK1;         PPP2CA; SOX6; SFRP2: ILK; LEF1; SOX9; TP53; MAP3K7; CREBBP;         TCF7L2; AKT1; PPP2R5C; WNTSA; LAPS; CTNNB1; TGFBR1; CCND1;         GSK3A; DVL1; APC; CDKN2A; MYC; CSNK1A1; GSK3B; AKT3; SOX2;     -   Insulin Receptor Signaling disorders: Genes linked to these         disorders: PTEN; INS; EIF4E; PTPN1; PRKCZ; MAPK1; TSC1; PTPN11;         AKT2; CBL; PIK3CA; PRKCI; PIK3CB; PIK3C3; MAPK8; IASI; MAPK3;         TSC2; KRAS; EIF4EBP1; SLC2A4; PIK3C2A; PPP1CC; INSR; RAF1; FYN;         MAP2K2; JAK1; AKT1; JAK2; PIK3R1; PDPK1; MAP2K1; GSK3A; FRAP1;         CRKL; GSK3B; AKT3; FOXO1; SGK; RPS6KB1;     -   IL-6 Cellular Signaling disorders: Genes linked to these         disorders: HSPB1; TRAF6; MAPKAPK2; ELK1; MAPK1; PTPN11; IKBKB;         FOS; NFKB2: MAP3K14; MAPK8; MAPK3; MAPK10; IL6ST; KRAS; MAPK13;         IL6R; RELA; SOCS1; MAPK9; ABCB1; TRAF2; MAPK14; TNF; RAF1;         IKBKG; RELB; MAP3K7; MAP2K2; IL8; JAK2; CHUK; STAT3; MAP2K1;         NFKB1; CEBPB; JUN; IL1R1; SRF; IL6;     -   Hepatic Cholestasis Cellular Signaling disorders: Genes linked         to these disorders: PRKCE; IRAK1; INS; MYD88; PRKCZ; TRAF6;         PPARA; RXRA; IKBKB; PRKCI; NFKB2; MAP3K14; MAPK8; PRKD1; MAPK10;         RELA; PRKCD; MAPK9; ABCB1; TRAF2; TLR4; TNF; INSR; IKBKG; RELB;         MAP3K7; IL8; CHUK; NR1H2; TJP2; NFKB1; ESR1; SREBF1; FGFR4; JUN;         IL1R1; PRKCA; IL6;     -   IGF-1 Cellular Signaling disorders: Genes linked to these         disorders: IGF1; PRKCZ; ELK1; MAPK1; PTPN11; NEDD4; AKT2;         PIK3CA; PRKCI; PTK2; FOS; PIK3CB; PIK3C3; MAPK8; IGF1R; IRS1;         MAPK3; IGFBP7; KRAS; PIK3C2A; YWHAZ; PXN; RAF1; CASP9; MAP2K2;         AKT1; PIK3R1; PDPK1; MAP2K1; IGFBP2; SFN; JUN; CYR61; AKT3;         FOXO1; SRF; CTGF; RPS6KB1;     -   NRF2-mediated Oxidative Stress Response Signaling disorders:         Genes linked to these disorders: PRKCE; EP300; SOD2; PRKCZ;         MAPK1; SQSTM1; NQO1; PIK3CA; PRKCI; FOS; PIK3CB; PIK3C3; MAPK8;         PRKD1; MAPK3; KRAS; PRKCD; GSTP1; MAPK9; FTL; NFE2L2; PIK3C2A;         MAPK14; RAF1; MAP3K7; CREBBP; MAP2K2; AKT1; PIK3R1; MAP2K1;         PPIB; JUN; KEAP1; GSK3B; ATF4; PRKCA; EIF2AK3; HSP9OAA1;     -   Hepatic Fibrosis/Hepatic Stellate Cell Activation Signaling         disorders: Genes linked to these disorders: EDN1; IGF1; KDR;         FLT1; SMAD2; FGFR1; MET; PGF; SMAD3; EGFR; FAS; CSF1; NFKB2;         BCL2; MYH9; IGF1R; IL6R; RELA; TLR4; PDGFRB; TNF; RELB; IL8;         PDGFRA; NFKB1; TGFBR1; SMAD4; VEGFA; BAX; IL1R1; CCL2; HGF;         MMP1; STAT1; IL6; CTGF; MMP9;     -   PPAR Signaling disorders: Genes linked to these disorders:         EP300; INS; TRAF6; PPARA; RXRA; MAPK1; IKBKB; NCOR2; FOS; NFKB2;         MAP3K14; STAT5B; MAPK3; NRIP1; KRAS; PPARG; RELA; STAT5A; TRAF2;         PPARGC1A; PDGFRB; TNF; INSR; RAF1; IKBKG; RELB; MAP3K7; CREBBP;         MAP2K2; CHUK; PDGFRA; MAP2K1; NFKB1; JUN; IL1R1; HSP9OAA1;     -   Fc Epsilon RI Signaling disorders: Genes linked to these         disorders: PRKCE; RAC1; PRKCZ; LYN; MAPK1; RAC2; PTPN11; AKT2;         PIK3CA; SYK; PRKCI; PIK3CB; PIK3C3; MAPK8; PRKD1; MAPK3; MAPK10;         KRAS; MAPK13; PRKCD; MAPK9; PIK3C2A; BTK; MAPK14; TNF; RAF1;         FYN; MAP2K2; AKT1; PIK3R1; PDPK1; MAP2K1; AKT3; VAV3; PRKCA;     -   G-Protein Coupled Receptor Signaling disorders: Genes linked to         these disorders: PRKCE; RAP1A; RGS16; MAPK1; GNAS; AKT2; IKBKB;         PIK3CA; CREB1; GNAQ; NFKB2; CAMK2A; PIK3CB; PIK3C3; MAPK3; KRAS;         RELA; SRC; PIK3C2A; RAF1; IKBKG; RELB; FYN; MAP2K2; AKT1;         PIK3R1; CHUK; PDPK1; S TAT3; MAP2K1; NFKB1; BRAF; ATF4; AKT3;         PRKCA;     -   Inositol Phosphate Metabolism Signaling disorders: Genes linked         to these disorders: PRKCE; IRAK1; PRKAA2; EIF2AK2; PTEN; GRK6;         MAPK1; PLK1; AKT2; PIK3CA; CDK8; PIK3CB; PIK3C3; MAPK8; MAPK3;         PRKCD; PRKAA1; MAPK9; CDK2; PIM1; PIK3C2A; DYRK1A; MAP2K2;         PIP5K1A; PIK3R1; MAP2K1; PAK3; ATM; TTK; CSNK1A1; BRAF; SGK;     -   PDGF Signaling disorders: Genes linked to these disorders:         EIF2AK2; ELK1; ABL2; MAPK1; PIK3CA; FOS; PIK3CB; P IK3 C3;         MAPK8; CAV1; ABL1; MAPK3; KRAS; SRC; PIK3C2A; PDGFRB; RAF1;         MAP2K2; JAK1; JAK2; PIK3R1; PDGFRA; STAT3; SPHK1; MAP2K1; MYC;         JUN; CRKL; PRKCA; SRF; STAT1; SPHK2 VEGF Signaling disorders:         Genes linked to these disorders: ACTN4; ROCK1; KDR; FLT1; ROCK2;         MAPK1; PGF; AKT2; PIK3CA; ARNT; PTK2; BCL2; PIK3CB; PIK3C3;         BCL2L1; MAPK3; KRAS; HIF1A; NOS3; PIK3C2A; PXN; RAF1; MAP2K2;         ELAVL1; AKT1; PIK3R1; MAP2K1; SFN; VEGFA; AKT3; FOXO1; PRKCA;     -   Natural Killer Cell Signaling disorders: Genes linked to these         disorders: PRKCE; RAC1; PRKCZ; MAPK1; RAC2; PTPN11; KIR2DL3;         AKT2; PIK3CA; SYK; PRKCI; PIK3CB; PIK3C3; PRKD1; MAPK3; KRAS;         PRKCD; PTPN6; PIK3C2A; LCK; RAF1; FYN; MAP2K2; PAK4; AKT1;         PIK3R1; MAP2K1; PAK3; AKT3; VAV3; PRKCA;     -   Cell Cycle: Gl/S Checkpoint Regulation Signaling disorders:         Genes linked to these disorders: HDAC4; SMAD3; SUV39H1; HDAC5;         CDKN1B; BTRC; ATR; ABL1; E2F1; HDAC2; HDAC7A; RB1; HDAC11;         HDAC9; CDK2; E2F2; HDAC3; TP53; CDKN1A; CCND1; E2F4; ATM; RBL2;         SMAD4; CDKN2A; MYC; NRG1; GSK3B; RBL1; HDAC6;     -   T Cell Receptor Signaling disorders: Genes linked to these         disorders: RAC1; ELK1; MAPK1; IKBKB; CBL; PIK3CA; FOS; NFKB2;         PIK3CB; PIK3C3; MAPK8; MAPK3; KRAS; RELA, PIK3C2A; BTK; LCK;         RAF1; IKBKG; RELB, FYN; MAP2K2; PIK3R1; CHUK; MAP2K1; NFKB1;         ITK; BCL10; JUN; VAV3;     -   Death Receptor disorders: Genes linked to these disorders:         CRADD; HSPB1; BID; BIRC4; TBK1; IKBKB; FADD; FAS; NFKB2; BCL2;         MAP3K14; MAPK8; RIPK1; CASP8; DAXX; TNFRSF10B; RELA; TRAF2; TNF;         IKBKG; RELB; CASP9; CHUK; APAF1; NFKB1; CASP2; BIRC2; CASP3;         BIRC3;     -   FGF Cell Signaling disorders: Genes linked to these disorders:         RAC1; FGFR1; MET; MAPKAPK2; MAPK1; PTPN11; AKT2; PIK3CA; CREB1;         PIK3CB; PIK3C3; MAPK8; MAPK3; MAPK13; PTPN6; PIK3C2A; MAPK14;         RAF1; AKT1; PIK3R1; STAT3; MAP2K1; FGFR4; CRKL; ATF4; AKT3;         PRKCA; HGF;     -   GM-CSF Cell Signaling disorders: Genes linked to these         disorders: LYN; ELK1; MAPK1; PTPN11; AKT2; PIK3CA; CAMK2A;         STATSB; PIK3CB; PIK3C3; GNB2L1; BCL2L1; MAPK3; ETS1; KRAS;         RUNX1; PIM1; PIK3C2A; RAF1; MAP2K2; AKT1; JAK2; PIK3R1; STAT3;         MAP2K1; CCND1; AKT3; STAT1;     -   Amyotrophic Lateral Sclerosis Cell Signaling disorders: Genes         linked to these disorders: BID; IGF1; RAC1; BIRC4; PGF; CAPNS1;         CAPN2; PIK3CA; BCL2; PIK3CB; PIK3C3; BCL2L1; CAPN1; PIK3C2A;         TP53; CASP9; PIK3R1; RABSA; CASP1; APAF1; VEGFA; BIRC2; BAX;         AKT3; CASP3; BIRC3 PTPN1; MAPK1; PTPN11; AKT2; PIK3CA; STATSB;         PIK3CB; PIK3C3; MAPK3; KRAS; SOCS1; STATSA; PTPN6; PIK3C2A;         RAF1; CDKN1A; MAP2K2; JAK1; AKT1; JAK2; PIK3R1; STAT3; MAP2K1;         FRAP1; AKT3; STAT1;     -   JAK/Stat Cell Signaling disorders: Genes linked to these         disorders: PTPN1; MAPK1; PTPN11; AKT2; PIK3CA; STATSB; PIK3CB;         PIK3C3; MAPK3; KRAS; SOCS1; STATSA; PTPN6; PIK3C2A; RAF1;         CDKN1A; MAP2K2; JAK1; AKT1; JAK2; PIK3R1; STAT3; MAP2K1; FRAP1;         AKT3; STAT1;     -   Nicotinate and Nicotinamide Metabolism Cell Signaling disorders:         Genes linked to these disorders: PRKCE; IRAK1; PRKAA2; EIF2AK2;         GRK6; MAPK1; PLK1; AKT2; CDK8; MAPK8; MAPK3; PRKCD; PRKAA1;         PBEF1; MAPK9; CDK2; PIM1; DYRK1A; MAP2K2; MAP2K1; PAK3; NT5E;         TTK; CSNK1A1; BRAF; SGK;     -   Chemokine Cell Signaling disorders: Genes linked to these         disorders: CXCR4; ROCK2; MAPK1; PTK2; FOS; CFL1; GNAQ; CAMK2A;         CXCL12; MAPK8; MAPK3; KRAS; MAPK13; RHOA; CCR3; SRC; PPP1CC;         MAPK14; NOX1; RAF1; MAP2K2; MAP2K1; JUN; CCL2; PRKCA;     -   IL-2 Cell Signaling disorders: Genes linked to these disorders:         ELK1; MAPK1; PTPN11; AKT2; PIK3CA; SYK; FOS; STAT5B; PIK3CB;         PIK3C3; MAPK8; MAPK3; KRAS; SOCS1; STAT5A; PIK3C2A; LCK; RAF1;         MAP2K2; JAK1; AKT1; PIK3R1; MAP2K1; JUN; AKT3;     -   Synaptic Long Term Depression Signaling disorders: Genes linked         to these disorders: PRKCE; IGF1; PRKCZ; PRDX6; LYN; MAPK1; GNAS;         PRKCI; GNAQ; PPP2R1A; IGF1R; PRKD1; MAPK3; KRAS; GRN; PRKCD;         NOS3; NOS2A; PPP2CA; YWHAZ; RAF1; MAP2K2; PPP2R5C; MAP2K1;         PRKCA;     -   Estrogen Receptor Cell Signaling disorders: Genes linked to         these disorders: TAF4B; EP300; CARM1; PCAF; MAPK1; NCOR2;         SMARCA4; MAPK3; NRIP1; KRAS; SRC; NR3C1; HDAC3; PPARGC1A; RBM9;         NCOA3; RAF1; CREBBP; MAP2K2; NCOA2; MAP2K1; PRKDC; ESR1; ESR2;     -   Protein Ubiquitination Pathway Cell Signaling disorders: Genes         linked to these disorders: TRAF6; SMURF1; BIRC4; BRCA1; UCHL1;         NEDD4; CBL; UBE2I; BTRC; HSPAS; USP7; USP10; FBXW7; USP9X;         STUB1; USP22; B2M; BIRC2; PARK2; USPS; USP1; VHL; HSP9OAA1;         BIRC3;     -   IL-10 Cell Signaling disorders: Genes linked to these disorders:         TRAF6; CCR1; ELK1; IKBKB; SP1; FOS; NFKB2; MAP3K14; MAPK8;         MAPK13; RELA; MAPK14; TNF; IKBKG; RELB; MAP3K7; JAK1; CHUK;         STAT3; NFKB1; JUN; IL1R1; IL6;     -   VDR/RXR Activation Signaling disorders: Genes linked to these         disorders: PRKCE; EP300; PRKCZ; RXRA; GADD45A; HES1; NCOR2; SP1;         PRKCI; CDKN1B; PRKD1; PRKCD; RUNX2; KLF4; YY1; NCOA3; CDKN1A;         NCOA2; SPP1; LAPS; CEBPB; FOXO1; PRKCA;     -   TGF-beta Cell Signaling disorders: Genes linked to these         disorders: EP300; SMAD2; SMURF1; MAPK1; SMAD3; SMAD1; FOS;         MAPK8; MAPK3; KRAS; MAPK9; RUNX2; SERPINE1; RAF1; MAP3K7;         CREBBP; MAP2K2; MAP2K1; TGFBR1; SMAD4; JUN; SMADS;     -   Toll-like Receptor Cell Signaling disorders: Genes linked to         these disorders: IRAK1; EIF2AK2; MYD88; TRAF6; PPARA; ELK1;         IKBKB; FOS; NFKB2; MAP3K14; MAPK8; MAPK13; RELA; TLR4; MAPK14;         IKBKG; RELB; MAP3K7; CHUK; NFKB1; TLR2; JUN;     -   p38 MAPK Cell Signaling disorders: Genes linked to these         disorders: HSPB1; IRAK1; TRAF6; MAPKAPK2; ELK1; FADD; FAS;         CREB1; DDIT3; RPS6KA4; DAXX; MAPK13; TRAF2; MAPK14; TNF; MAP3K7;         TGFBR1; MYC; ATF4; IL1R1; SRF; STAT1; and     -   Neurolrophin/TRK Cell Signaling disorders: Genes linked to these         disorders: NTRK2; MAPK1; PTPN11; PIK3CA; CREB1; FOS; PIK3CB;         PIK3C3; MAPK8; MAPK3; KRAS; PIK3C2A; RAF1; MAP2K2; AKT1; PIK3R1;         PDPK1; MAP2K1; CDC42; JUN; ATF4.

Other cellular dysfunction disorders linked to a genetic modification are contemplated herein for example, FXR/RXR Activation, Synaptic Long Term Potentiation, Calcium Signaling EGF Signaling, Hypoxia Signaling in the Cardiovascular System, LPS/IL-1 Mediated Inhibition of RXR Function LXR/RXR Activation, Amyloid Processing, IL-4 Signaling, Cell Cycle: G2/M DNA Damage Checkpoint Regulation, Nitric Oxide Signaling in the Cardiovascular System Purine Metabolism, cAMP-mediated Signaling, Mitochondrial Dysfunction Notch Signaling Endoplasmic Reticulum Stress Pathway Pyrimidine Metabolism, Parkinson's Signaling Cardiac & Beta Adrenergic Signaling Glycolysis/Gluconeogenesis Interferon Signaling Sonic Hedgehog Signaling Glycerophospholipid Metabolism, Phospholipid Degradation, Tryptophan Metabolism Lysine Degradation Nucleotide Excision Repair Pathway, Starch and Sucrose Metabolism, Aminosugars Metabolism Arachidonic Acid Metabolism, Circadian Rhythm Signaling, Coagulation System Dopamine Receptor Signaling, Glutathione Metabolism Glycerolipid Metabolism Linoleic Acid Metabolism Methionine Metabolism Pyruvate Metabolism Arginine and Praline Metabolism, Eicosanoid Signaling Fructose and Mannose Metabolism, Galactose Metabolism Stilbene, Coumarine and Lignin Biosynthesis Antigen Presentation Pathway, Biosynthesis of Steroids Butanoate Metabolism Citrate Cycle Fatty Acid Metabolism Glycerophosphol ipid Metabolism, Histidine Metabolism Inositol Metabolism Metabolism of Xenobiotics by Cytochrome p450, Methane Metabolism, Phenylalanine Metabolism, Propanoate Metabolism Selenoamino Acid Metabolism Sphingolipid Metabolism Aminophosphonate Metabolism, Androgen and Estrogen Metabolism Ascorbate and Aldarate Metabolism, Bile Acid Biosynthesis Cysteine Metabolism Fatty Acid Biosynthesis Glutamate Receptor Signaling, NRF2-mediated, Oxidative Stress Response Pentose Phosphate Pathway, Pentose and Glucuronate Interconversions, Retinol Metabolism Riboflavin Metabolism Tyrosine Metabolism Ubiquinone Biosynthesis Valine, Leucine and Isoleucine Degradation Glycine, Serine and Threonine Metabolism Lysine Degradation Pain/Taste, or Mitochondrial Function Developmental Neurology or combinations thereof.

Nucleic acid-guided nucleases can encompass a native sequence, an engineered sequence, or engineered nucleotide sequences of synthetized variants. Non-limiting examples of types of engineering that can be done to obtain a non-naturally occurring nuclease system are as follows. Engineering can include codon optimization to facilitate expression or improve expression in a host cell, such as a heterologous host cell. Engineering can reduce the size or molecular weight of the nuclease in order to facilitate expression or delivery. Engineering can alter PAM selection in order to change PAM specificity or to broaden the range of recognized PAMs. Engineering can alter, increase, or decrease stability, processivity, specificity, or efficiency of a targetable nuclease system. Engineering can alter, increase, or decrease protein stability. Engineering can alter, increase, or decrease processivity of nucleic acid scanning Engineering can alter, increase, or decrease target sequence specificity. Engineering can alter, increase, or decrease nuclease activity. Engineering can alter, increase, or decrease editing efficiency. Engineering can alter, increase, or decrease transformation efficiency. Engineering can alter, increase, or decrease nuclease or guide nucleic acid expression. As used herein, a non-naturally occurring nucleic acid sequence can be an engineered sequence or engineered nucleotide sequences of synthetized variants. Such non-naturally occurring nucleic acid sequences can be amplified, cloned, assembled, synthesized, generated from synthesized oligonucleotides or dNTPs, or otherwise obtained using methods known by those skilled in the art. In certain embodiments, examples of non-naturally occurring nucleic acid-guided nucleases disclosed herein can include those nucleic acid-guided nuclease with engineered polypeptide sequences (e.g., SEQ ID NO: 143-177, 229, 257-262, and 330, in some cases also comprising additional amino acid sequences, as described herein); engineered polynucleotide sequences that code therefore (e.g., SEQ ID NO: 1-142, 225-228, 230-256, and 230; in some cases also comprising additional nucleotide sequences, as described herein); one or more polynucleotides comprising RNA, e.g., engineered gRNA, compatible with those nucleic acid-guided nucleases, with nucleotide sequences, or portions of nucleotide sequences, of synthetized variants, or portions thereof (e.g., SEQ ID NO: 178-188, sequences as provided in Table 3 or portions thereof); and/or others as described herein.

Disclosed herein are nucleic acid-guided nucleases. It is understood that the disclosed nucleic acid-guided nuclease are functional in vitro, or in prokaryotic, archaeal, or eukaryotic cells for in vitro, in vivo, or ex vivo applications. Suitable nucleic acid-guided nucleases can be from an organism from a genus which includes but is not limited to Thiomicrospira, Succinivibrio, Candidatus, Porphyromonas, Acidaminococcus, Acidomonococcus, Barnesiella, Prevotella, Smithella, Moraxella, Synergistes, Francisella, Leptospira, Catenibacterium, Kandleria, Clostridium, Dorea, Coprococcus, Enterococcus, Fructobacillus, Weissella, Pediococcus, Collinsella, Corynebacter, Sutterella, Legionella, Treponema, Roseburia, Filifactor, Lachnospiraceae, Eubacterium, Sedimentisphaera, Streptococcus, Lactobacillus, Mycoplasma, Bacteroides, Flaviivola, Flavobacterium, Sphaerochaeta, Azospirillum, Gluconacetobacter, Neisseria, Roseburia, Parvibaculum, Parabacteroides, Staphylococcus, Nitratifractor, Mycoplasma, Alicyclobacillus, Brevibacilus, Bacillus, Bacteroidetes, Brevibacilus, Carnobacterium, Clostridiaridium, Clostridium, Desulfonatronum, Desulfovibrio, Helcococcus, Leptotrichia, Listeria, Methanomethyophilus, Methylobacterium, Opitutaceae, Paludibacter, Rhodobacter, Sphaerochaeta, Tuberibacillus, Oleiphilus, Omnitrophica, Parcubacteria, and Campylobacter. Species of organism of such a genus can be as otherwise herein discussed. Suitable gRNAs can be from an organism from a genus or unclassified genus within a kingdom which includes but is not limited to Firmicute, Actinobacteria, Bacteroidetes, Proteobacteria, Spirochates, and Tenericutes. Suitable gRNAs can be from an organism from a genus or unclassified genus within a phylum which includes but is not limited to Erysipelotrichia, Clostridia, Bacilli, Actinobacteria, Bacteroidetes, Catenovulum, Coprococcus, Flavobacteria, Alphaproteobacteria, Betaproteobacteria, Gammaproteobacteria, Deltaproteobacteria, Epsilonproteobacteria, Spirochaetes, and Mollicutes. Suitable gRNAs can be from an organism from a genus or unclassified genus within an order which includes but is not limited to Clostridiales, Lactobacillales, Actinomycetales, Bacteroidales, Flavobacteriales, Rhizobiales, Rhodospirillales, Burkholderiales, Neisseriales, Legionellales, Nautiliales, Campylobacterales, Spirochaetales, Mycoplasmatales, and Thiotrichales. Suitable gRNAs can be from an organism from a genus or unclassified genus within a family which includes but is not limited to, Lachnospiraceae, Enterococcaceae, Leuconostocaceae, Lactobacillaceae, Streptococcaceae, Peptostreptococcaceae, Staphylococcaceae, Eubacteriaceae, Corynebacterineae, Bacteroidaceae, Flavobacterium, Cryomoorphaceae, Rhodobiaceae, Rhodospirillaceae, Acetobacteraceae, Sutterellaceae, Neisseriaceae, Legionellaceae, Nautiliaceae, Campylobacteraceae, Spirochaetaceae, Mycoplasmataceae, Pisciririckettsiaceae, and Francisellaceae. In some embodiments, suitable gRNAs can be from an organism from a genus or unclassified genus within a family which includes Acidaminococcus, Sedimentisphaera, Barnesiella sp., Bacteroidetes, Parabacteroides, Lachnospiraceae, Coprococcus sp., Catenovulum sp., and Collinsella. Other nucleic acid-guided nucleases have been described in US Patent Application Publication No. US20160208243 filed Dec. 18, 2015, US Application Publication No. US20140068797 filed Mar. 15, 2013, U.S. Pat. No. 8,697,359 filed Oct. 15, 2013, and Zetsche et al., Cell 2015 Oct. 22; 163(3):759-71.

Some nucleic acid-guided nucleases suitable for use in the methods, systems, and compositions of the present disclosure can include, but are not limited to, those derived from an organism such as, but not limited to, Thiomicrospira sp. XS5, Eubacterium rectale, Succinivibrio dextrinosolvens, Candidatus Methanoplasma termitum, Candidatus Methanomethylophilus alvus, Porphyromonas crevioricanis, Flavobacterium branchiophilum, Acidaminococcus Sp., Acidomonococcus sp., Lachnospiraceae bacterium COE1, Prevotella brevis ATCC 19188, Smithella sp. SCADC, Moraxella bovoculi, Synergistes jonesii, Bacteroidetes oral taxon 274, Francisella tularensis, Leptospira inadai serovar Lyme str. 10, Acidomonococcus sp. crystal structure (5B43) S. mutans, S. agalactiae, S. equisimilis, S. sanguinis, S. pneumonia; C. jejuni, C. coli; N. salsuginis, N. tergarcus; S. auricularis, S. carnosus; N. meningitides, N. gonorrhoeae; L. monocytogenes, L. ivanovii; C. botulinum, C. difficile, C. tetani, C. sordellii; Francisella tularensis 1, Prevotella albensis, Lachnospiraceae bacterium MC2017 1, Butyrivibrio proteoclasticus, Butyrivibrio proteoclasticus B316, Peregrinibacteria bacterium GW2011_GWA2_33_10, Parcubacteria bacterium GW2011_GWC2_44_17, Smithella sp. SCADC, Acidaminococcus sp. BV3L6, Lachnospiraceae bacterium MA2020, Candidatus Methanoplasma termitum, Eubacterium eligens, Moraxella bovoculi 237, Leptospira inadai, Lachnospiraceae bacterium ND2006, Porphyromonas crevioricanis 3, Prevotella disiens, Porphyromonas macacae, Catenibacterium sp. CAG:290, Kandleria vitulina, Clostridiales bacterium KA00274, Lachnospiraceae bacterium 3-2, Dorea longicatena, Coprococcus catus GD/7, Enterococcus columbae DSM 7374, Fructobacillus sp. EFB-N1, Weissella halotolerans, Pediococcus acidilactici, Lactobacillus curvatus, Streptococcus pyogenes, Lactobacillus versmoldensis, Filifactor alocis ATCC 35896, Alicyclobacillus acidoterrestris, Alicyclobacillus acidoterrestris ATCC 49025, Desulfovibrio inopinatus, Desulfovibrio inopinatus DSM 10711, Oleiphilus sp. Oleiphilus sp. HI0009, Candidtus kefeldibacteria, Parcubacteria CasY.4, Omnitrophica WOR 2 bacterium GWF2, Bacillus sp. NSP2.1, Bacillus thermoamylovorans, Catenovulum sp. CCB-QB4, Coprococcus sp. AF16-5, Lachnospiraceae bacterium MC2017, Collinsella tanakaei, Parabacteroides distasonis, Bacteroidetes bacterium HGW-Bacteroidetes-6, Barnesiella sp. An22, Sedimentisphaera cyanobacteriorum, and Acidaminococcus massiliensis.

In some embodiments, a nucleic acid-guided nuclease disclosed herein includes a polypeptide having an amino acid sequence of at least 50% identity to any one of SEQ ID NO: 143-177 and 229. In some embodiments, a nucleic acid-guided nuclease disclosed herein includes a polypeptide having an amino acid sequence of at least 60%, 65%, 75%, 85%, 95%, 99% or 100% identity to amino acid sequences of one or more of SEQ ID NO: 143-177 and 229. In some embodiments, a nucleic acid-guided nuclease disclosed herein includes a polypeptide having an amino acid sequence of at least 60%, 65%, 75%, 85%, 95%, 99% or 100% identity to amino acid sequences of one or more of SEQ ID NO: 143-151. In some embodiments, a nucleic acid-guided nuclease disclosed herein includes an amino acid sequence having at least 85%, 90%, 95%, 99% or 100%, amino acid identity to any one of SEQ ID NO: 143, 144, 147, 148, 150, and 151. In some embodiments, a nucleic acid-guided nuclease disclosed herein includes a polypeptide having at least 85%, 90%, 95%, 99% or 100% amino acid identity to an amino acid sequence represented by SEQ ID NO: 144.

In certain embodiments herein, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60%, 65%, 75%, 85%, 90%, 95%, 99% or 100% sequence identity, for example at least 85%, in some cases at least 90%, in some cases at least 95%, in some cases at least 99% or even 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-177 and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-177 and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 80% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-177 and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 90% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-177 and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 95% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-177 and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-177 and 229. These amino acid sequences may be the entire amino acid sequence of the nuclease polypeptide, or they may be an original nuclease polypeptide to which additional amino acid sequences are appended, as described above.

In certain embodiments, nucleases disclosed herein do not share conserved peptide motifs, or for polynucleotides coding for a nuclease, a nucleotide sequence coding for such a motif, with known nucleases. In certain embodiments, nucleases disclosed herein do not contain the peptide motif YLFQIYNKDF (SEQ ID NO. 224). In certain embodiments, one or more polynucleotides coding for a nuclease disclosed herein do not encode the peptide motif YLFQIYNKDF (SEQ ID NO. 224) within the encoded nuclease. The motif of SEQ ID NO: 224 may be completely absent, or may have one, two, three, four, five, or more than 5 substituted amino acids compared to SEQ ID NO: 224. The substitutions may be conservative or radical, or any combination thereof. In certain embodiments, the non-SEQ ID NO: 224 sequence may have at least one radical substitution. In certain embodiments, the non-SEQ ID NO: 224 sequence may have at least one, two, three, or four substitutions that have a value of at least 10, 15, 20, or 25 on Sneath's index. In certain embodiments, the non-SEQ ID NO: 224 sequence may have at least one substitution that has a value of at least 25 on Sneath's index.

In certain embodiments herein, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60%, 65%, 75%, 85%, 90%, 95%, 99% or 100% sequence identity, for example at least 85%, in some cases at least 90%, in some cases at least 95%, in some cases at least 99% or even 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 80% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 90% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175,177, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 95% sequence identity to an amino acid sequence represented by any one SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229. These amino acid sequences may be the entire amino acid sequence of the nuclease polypeptide, or they may be an original nuclease polypeptide to which additional amino acid sequences are appended, as described above.

In certain embodiments herein, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60%, 65%, 75%, 85%, 90%, 95%, 99% or 100% sequence identity, for example at least 85%, in some cases at least 90%, in some cases at least 95%, in some cases at least 99% or even 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 149, 151, 175, and 177. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 149, 151, 175, and 177. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 80% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 149, 151, 175, and 177. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 90% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: SEQ ID NO: 149, 151, 175, and 177. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 95% sequence identity to an amino acid sequence represented by any one SEQ ID NO: 149, 151, 175, and 177. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: SEQ ID NO: 149, 151, 175, and 177. These amino acid sequences may be the entire amino acid sequence of the nuclease polypeptide, or they may be an original nuclease polypeptide to which additional amino acid sequences are appended, as described above.

In certain embodiments herein, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60%, 65%, 75%, 85%, 90%, 95%, 99% or 100% sequence identity, for example at least 85%, in some cases at least 90%, in some cases at least 95%, in some cases at least 99% or even 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 144, 153, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 144, 153, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 80% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 144, 153, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 90% sequence identity to an amino acid sequence represented by any one SEQ ID NO: 144, 153, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 95% sequence identity to an amino acid sequence represented by any one SEQ ID NO: 144, 153, and 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 144, 153, and 229. These amino acid sequences may be the entire amino acid sequence of the nuclease polypeptide, or they may be an original nuclease polypeptide to which additional amino acid sequences are appended, as described above.

In certain embodiments herein, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60%, 65%, 75%, 85%, 90%, 95%, 99% or 100% sequence identity, for example at least 85%, in some cases at least 90%, in some cases at least 95%, in some cases at least 99% or even 100% sequence identity to an amino acid sequence represented by SEQ ID NO: 144. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60% sequence identity to an amino acid sequence represented by SEQ ID NO: 144. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 80% sequence identity to an amino acid sequence represented by SEQ ID NO: 144. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 90% sequence identity to an amino acid sequence represented by SEQ ID NO: 144. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 95% sequence identity to an amino acid sequence represented by SEQ ID NO: 144. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 144. These amino acid sequences may be the entire amino acid sequence of the nuclease polypeptide, or they may be an original nuclease polypeptide to which additional amino acid sequences are appended, as described above.

In certain embodiments herein, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60%, 65%, 75%, 85%, 90%, 95%, 99% or 100% sequence identity, for example at least 85%, in some cases at least 90%, in some cases at least 95%, in some cases at least 99% or even 100% sequence identity to an amino acid sequence represented by SEQ ID NO: 153. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60% sequence identity to an amino acid sequence represented by SEQ ID NO: 153. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 80% sequence identity to an amino acid sequence represented by SEQ ID NO: 153. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 90% sequence identity to an amino acid sequence represented by SEQ ID NO: 153. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 95% sequence identity to an amino acid sequence represented by SEQ ID NO: 153. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 153. These amino acid sequences may be the entire amino acid sequence of the nuclease polypeptide, or they may be an original nuclease polypeptide to which additional amino acid sequences are appended, as described above.

A nucleic acid-guided nuclease may comprise an amino acid sequence that, even without additional amino acid sequences, such as those described herein, is an engineered sequence, that is, that does not match any known native sequence. In certain embodiments herein, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60%, 65%, 75%, 85%, 90%, 95%, 99% or 100% sequence identity, for example at least 85%, in some cases at least 90%, in some cases at least 95%, in some cases at least 99% or even 100% sequence identity to an amino acid sequence represented by SEQ ID NO: 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 60% sequence identity to an amino acid sequence represented by SEQ ID NO: 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 80% sequence identity to an amino acid sequence represented by SEQ ID NO: 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 90% sequence identity to an amino acid sequence represented by SEQ ID NO: 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has at least 95% sequence identity to an amino acid sequence represented by SEQ ID NO: 229. In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease, comprises an amino acid sequence that has 100% sequence identity to an amino acid sequence represented by any one of SEQ ID NO: 229. These amino acid sequences may be the entire amino acid sequence of the nuclease polypeptide, or they may be an original nuclease polypeptide to which additional amino acid sequences are appended, as described above.

Thus, disclosed herein are compositions and methods providing and/or utilizing engineered nucleic acid-guided nuclease systems, components and products thereof, and other compositions and methods, as will be apparent. As used herein, an “engineered nucleic acid-guided nuclease system,” also referred to herein as novel engineered nucleic acid-guided nuclease constructs, non-naturally occurring nucleic acid guided-nuclease systems, and the like, can refer to a nucleic acid-guided nuclease system, where the system is non-naturally occurring. The system can include a) one or more components that are in their final form, that is, as used in one or more methods, e.g., as used in a host cell, sometimes after further processing at one or more locations; b) a polynucleotide or polynucleotides coding for one or more components; the system can include a) and b). The components comprises one or more of: 1) an engineered nucleic-acid guided nuclease, or portion thereof, such as an active portion thereof, 2) an engineered guide nucleic acid, e.g., gRNA, compatible with the engineered nucleic acid-guided nuclease or portion thereof, and/or, in the case of coding or other polynucleotides, 3) one or more engineered polynucleotides. The system can further include other components, such as an editing template.

As used herein, “engineer, engineered,” also referred to herein as novel, and the like, can refer to a non-naturally occurring composition or method.

In certain embodiments, examples of non-naturally occurring nucleic acid-guided nucleases disclosed herein can include those nucleic acid-guided nucleases produced with polynucleotide sequences, e.g. engineered polynucleotide sequences (e.g., SEQ ID NO: 1-142, 225-228, and 330, or a subgroup thereof, as described more fully herein) and those gNA, e.g., gRNA sequences of synthetized variants (e.g., SEQ ID NO: 178-188). In certain embodiments, a synthesized variant comprising a gNA, e.g. gRNA as shown in Table 3 and described more fully herein may be used.

In certain embodiments, provided herein are engineered nucleic acid-guided nucleases. As used herein, an “engineered nucleic acid-guided nuclease,” or similar term, is a non-naturally occurring nucleic acid-guided nuclease; the nuclease can be non-naturally occurring for any reason including comprising an engineered nuclease polypeptide and/or one or more engineered polynucleotides coding therefore.

As used herein, a “nucleic acid-guided nuclease,” also referred to herein simply as a nuclease, a CRISPR associated (Cas) nuclease, Cas12a-like, and the like, can refer to a nuclease that, together with a compatible guide nucleic acid, e.g., a compatible gRNA, can bind to and cleave at or near a target sequence in a target polynucleotide. A “target sequence,” also referred to herein as a target nucleic acid, target polynucleotide sequence, and the like, can refer to a sequence to which a guide sequence has complementarity, where hybridization between a target sequence and a guide sequence that allows the activity of a nuclease complex, e.g., an engineered nuclease complex. A target polynucleotide of a targetable nuclease complex can be any polynucleotide endogenous or exogenous to the host cell. A “target polynucleotide,” as that term and the like is used herein, can refer to a polynucleotide in which a target sequence is located.

Disclosed herein are guide nucleic acids (gNAs), e.g., gRNAs and polynucleotides encoding a gNA or gRNA, or part of a gNA or gRNA. In certain embodiments, a gNA, e.g., gRNA, is an engineered gNA, e.g., an engineered gRNA.

As used herein, “guide nucleic acid” or “guide polynucleotide” (gNA) can refer to one or more polynucleotides; a gNA includes 1) a guide sequence capable of hybridizing to a target sequence and 2) a scaffold sequence capable of interacting with or complexing with a nucleic acid-guided nuclease. A gNA, e.g., gRNA, is necessary to be complexed with a compatible nucleic acid-guided nuclease for the nuclease complex to locate and cleave at or near a target sequence. A “guide RNA (gRNA),” also referred to herein as an RNA guide polynucleotide, is a gNA whose nucleotides are ribonucleotides, either natural or modified.

A target polynucleotide of a targetable nuclease complex can be any polynucleotide endogenous or exogenous to the host cell. A “target polynucleotide,” as that term and the like is used herein, can refer to a polynucleotide in which a target sequence is located. Target polynucleotides may comprise coding or non-coding nucleotides. In certain embodiments, a target sequence is within a target polynucleotide that is a Safe Harbor Site (SHS).

A guide nucleic acid can be provided as one or more nucleic acids.

In specific embodiments, a guide nucleic acid, e.g. gRNA, is provided as two separate polynucleotides that associate to form a functional guide nucleic acid, e.g., gRNA (split or dual guide nucleic acid, e.g., split or dual gRNA). In certain embodiments, a nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease as disclosed herein, is combined with a compatible gNA, e.g., compatible gRNA, that comprises a split gNA, e.g., split gRNA, where the nuclease, or nuclease sequence from which it was derived, does not, in its native state, combine with a split gNA, e.g., split gRNA, but rather combines with single gNA, e.g. single gRNA. In at least some of these native nucleases, e.g, Cas12a, a tracrRNA is absent in the native gRNA. In certain embodiments herein, a gRNA, such as a split gRNA, comprises a tracrRNA. See PCT Publication WO2021067788 for further discussion of these non-naturally occurring gNAs.

In specific embodiments, the guide sequence and the scaffold sequence are provided as a single polynucleotide (single guide nucleic acid, e.g., single gRNA).

A nucleic acid-guided nuclease, such as an engineered nucleic acid-guided nuclease as disclosed herein, when combined with a compatible gNA, e.g., compatible gRNA, forms a targetable nuclease complex, also referred to herein as a ribonucleoprotein (RNP) if gRNA, complexed nucleic acid-guided nuclease, or the like which is capable of binding to a target sequence within a target polynucleotide, as determined by the guide sequence of the guide nucleic acid, and cleaving at or near the target sequence. A guide polynucleotide can be DNA. A guide polynucleotide can be RNA. A guide polynucleotide can include both DNA and RNA. A guide polynucleotide can include modified or non-naturally occurring nucleotides. In cases where the guide polynucleotide comprises RNA, the RNA guide polynucleotide can be encoded by a DNA sequence on a polynucleotide molecule such as a plasmid, linear construct, or editing cassette as disclosed herein.

In general, a guide polynucleotide can complex with a compatible nucleic acid-guided nuclease and can hybridize with a target sequence, thereby directing the nuclease to the target sequence. A subject nucleic acid-guided nuclease capable of complexing with a guide polynucleotide can be referred to as a nucleic acid-guided nuclease that is compatible with the guide polynucleotide. In addition, a guide polynucleotide capable of complexing with a nucleic acid-guided nuclease can be referred to as a guide polynucleotide or a guide nucleic acid that is compatible with the nucleic acid-guided nucleases.

A gNA, e.g., gRNA can be a naturally-occurring gNA, e.g., naturally-occurring gRNA. In certain embodiments, a gNA, e.g., gRNA is an engineered gNA, e.g., an engineered gRNA. An “engineered guide nucleic acid,” e.g., “engineered gRNA,” also referred to as novel guide nucleic acid, e.g., novel gRNA, as that term is used herein, can include a non-naturally occurring guide nucleic acid, e.g. a non-naturally occurring gRNA, or an orthogonal gNA, e.g., an orthogonal gRNA.

Nucleic acid-guided nucleases can be compatible with guide nucleic acids that are not found within the nucleases endogenous host. Such orthogonal guide nucleic acids can be determined by empirical testing. Orthogonal guide nucleic acids can come from different bacterial species or be synthetic or otherwise engineered to be non-naturally occurring.

Orthogonal guide nucleic acids that are compatible with a nucleic acid-guided nuclease can comprise one or more common features. Common features can include sequence outside a pseudoknot region. Common features can include a pseudoknot region. Common features can include a primary sequence or secondary structure.

Disclosed herein are targetable nucleic acid-guided nuclease complexes. A “targetable nucleic acid guided nuclease complex,” or the like, as that term is used herein, can refer to a nucleic acid-guided nuclease bound to a compatible gNA; the complex is functional to bind to and produce at least one strand break at or near a target sequence in a target polynucleotide. In certain embodiments, a targetable nucleic acid-guided complex comprises a gNA that is a gRNA; such complexes can be referred to as a “ribonucleoprotein,” or “RNP.” In certain embodiments, a targetable nucleic acid-guided nuclease complex, e.g., RNP, is an engineered targetable nucleic acid-guided nuclease complex, e.g., an engineered RNP. An “engineered targetable nucleic acid-guided nuclease complex,” e.g., an “engineered RNP,” or the like, as those terms are used herein, can refer to a targetable nucleic acid-guided nuclease complex, e.g., RNP, in which the nucleic acid-guided nuclease comprises an engineered nucleic acid-guided nuclease, the guide nucleic acid, e.g., gRNA comprises an engineered guide nucleic acid, e.g., engineered gRNA, or both. In certain embodiments, both the nuclease and the gNA, e.g., gRNA, are engineered. In embodiments in which an engineered nucleic acid-guided nuclease is used, any suitable nucleic acid-guided nuclease may be used, such as a nucleic acid-guided nuclease as disclosed herein. In embodiments in which an engineered gNA, e.g., engineered gRNA, is used, any suitable engineered gNA, e.g., engineered gRNA, may be used, such as an engineered gNA, e.g., engineered gRNA as disclosed herein.

A targetable nucleic acid-guided nuclease complex, e.g., RNP, may be produced in any suitable manner, as known in the art. At one extreme, both the nucleic acid-guided nuclease and its compatible gNA, e.g. gRNA, are produced synthetically, then combined to form a targetable nucleic acid-guided nuclease complex, e.g., RNP. The complex may be introduced into a host cell by any suitable method, e.g., electroporation. At the other extreme, a targetable nucleic acid-guided nuclease complex, e.g., RNP, is produced in a host cell by transcription and/or translation of one or more polynucleotides introduced into the host cell, where the polynucleotide(s) contain portions coding for the one or more components of the targetable nucleic acid-guided nuclease complex, e.g., RNP, such as one or more portions coding for the nuclease, one or more portions coding for one or more gNAs, e.g., gRNAs, and one or more portions coding for one or more editing templates, if used. Regulatory elements and others may be added to render the polynucleotides operable, as discussed herein and known in the art, to produce one or more vectors. The one or more vectors are introduced into the host cell by any suitable method. The various components are produced by the cell and assemble into a targetable nucleic acid-guided nuclease complex, e.g., RNP, inside the cell. Either of these, or any variation between these two extremes, may be used, and have been extensively described in the art; see, e.g., U.S. Pat. No. 10,337,028. In certain embodiments, a targetable nucleic acid-guided nuclease is produced in a first host cell by introduction of a suitable polynucleotide or polynucleotides, packaged in one or more suitable vectors, into the first host cell which produces the nuclease, then extraction and purification to a suitable degree. It will be apparent that various purification tags, cleavage sequences, FLAG and 3×FLAG, as described herein, are useful to help isolate and purify the nuclease. In certain embodiments, one or more compatible gNAs, e.g., one or more compatible gRNAs, such as one or more compatible gRNAs comprising one or more modified nucleotides, e.g., one or more chemically modified nucleotides, which can be a split gNA, e.g., split gRNA or single gNA, e.g, single gRNA (in certain embodiments a split gNA), are synthesized as complete gNAs, or gRNAs. The synthesized gNAs, e.g., gRNA can be introduced into the host cell, where, when a compatible gNA, e.g., compatible gRNA, encounters a nuclease they bind into a targetable nucleic acid-guided nuclease complex, e.g., RNP. The synthesized gNAs, e.g., gRNA can be contacted with a suitable nuclease outside the cell for a time sufficient to allow formation of a targetable nucleic acid-guided nuclease complex, e.g., RNP, which is then introduced into a host cell.

In certain embodiments, a sequence to be integrated comprises a transgene.

In certain embodiments, compositions and methods disclosed herein utilize a nucleic acid-guided nuclease that comprises an engineered nuclease polypeptide. As used herein, the term “engineered nuclease polypeptide,” also referred to herein as an engineered sequence, and the like, can refer to a nuclease polypeptide comprising a non-naturally occurring amino acid sequence, where the polypeptide functions as a nucleic acid-guided nuclease, either as is or with additional processing, in combination with a compatible gNA, e.g., gRNA. A non-naturally occurring amino acid sequence can be, e.g., an amino acid sequence that differs from a native sequence, e.g., through substitution of one or more amino acids in the sequence, and/or non-natural amino acids in the sequence, through addition of one or more amino acids at the N-terminus, the C-terminus, or a combination thereof.

As used herein, an “engineered nucleic acid-guided nuclease,” also referred to herein as Cas12a-like nuclease, is a non-naturally occurring nuclease; the nuclease can be non-naturally occurring for reasons including, but not limited to, comprising an engineered nuclease polypeptide.

In certain embodiments, an engineered nuclease polypeptide can include nuclease polypeptide, e.g., a nuclease polypeptide comprising an amino sequence with at least 60%, 65%, 75%, 85%, 90%, 95%, 99% or 100% sequence identity, for example at least 85%, in some cases at least 90%, in some cases at least 95%, in some cases at least 99% or even 100% sequence identity to any one amino acid sequence represented by SEQ ID NOs:143-177 and 229, to which additional amino acids have been added, e.g., at the amino terminus, the carboxy terminus, or both. Such additions can include any suitable addition; exemplary additions include one or more nuclear localization sequences (NLSs), one or more purification tags, one or more cleavage sequences, one or more markers, one or more FLAG or 3×FLAG sequences, or a combination thereof, wherein each addition can occur at the amino terminus or carboxy terminus of the core amino acid sequence, as desired or appropriate. “At the amino terminus,” as that term is used herein, includes amino acid additions that are added before, and directly or indirectly connected to, the amino terminus “At the amino terminus,” as that term is used herein, includes amino acid additions that are added after, and directly or indirectly connected to, the amino terminus. One or more of the additional amino acids may be cleaved during preparation and/or processing of the nuclease polypeptide.

A “nuclease polypeptide,” and the like, as that term is used herein, can refer to a polypeptide having an amino acid sequence such that the polypeptide functions as a nucleic acid-guided nuclease, either as is or with additional processing, in combination with a compatible gNA, e.g., compatible gRNA. A “native nuclease polypeptide,” also referred to herein as a native nuclease polypeptide sequence, and the like, as that term is used herein, can refer to a nuclease polypeptide that is found in nature, e.g., in a nucleic acid-guided nuclease found in a prokaryotic organism.

As used herein, the term “original nuclease polynucleotide,” and the like, can refer to a nuclease polypeptide from which an engineered nuclease polypeptide is derived. In some cases an original nuclease polypeptide can be a native nuclease polypeptide.

As used herein, the term “engineered nuclease polypeptide,” also referred to herein as an engineered sequence, and the like, can refer to a nuclease polypeptide that is non-naturally occurring. The nuclease polypeptide can be non-naturally occurring for any reason, including having an amino acid sequence that differs from known native nuclease polypeptides, or having a nuclease polypeptide that comprises an original nuclease polypeptide (which can be a native nuclease polypeptide) to which one or more additional amino acid sequences are appended, at the N-terminus, at the C-terminus, or both.

Additional amino acids sequences that can be appended to an original nuclease polypeptide can be any suitable amino acid sequence; in certain embodiments, additional amino acid sequences include one or more of a nuclear localization sequence (NLS), one or more of a purification tag, one or more of a cleavage sequence, one or more of a FLAG or 3×FLAG, and/or one or more of a marker. When more than one of a type of amino acid sequence is used, e.g., more than one NLS, each amino acid sequence can be the same as, or different from the others, and each can be added at the N-terminus or the C-terminus of the original nuclease polypeptide. In certain embodiments, the order and/or type of additional amino acid sequences can be a specific order and/or type. The order is read as N-terminal to C-terminal.

NLS

In certain embodiments, an additional amino acid sequence can include one or more nuclear localization sequences (NLSs), such as 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or more NLSs, that may be added to the original nuclease polypeptide. In some embodiments, the engineered nuclease polypeptide comprises 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or more NLSs at the amino-terminus of the original nuclease polypeptide, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or more NLSs at the carboxy-terminus of the original nuclease polypeptide, or a combination of these (e.g. one or more NLS at the amino-terminus and one or more NLS at the carboxy terminus). In certain embodiments, the engineered nuclease polypeptide comprises 1-3, in some cases 1-2, for example, 1, NLS at the amino terminus. In certain embodiments, the engineered nuclease polypeptide comprises 3-5, in some cases 3-4, for example, 3, NLS at the carboxy terminus. When more than one NLS is present, each may be selected independently of the others, such that a single NLS may be present in more than one copy and/or in combination with one or more other NLSs present in one or more copies. In certain embodiments, 4 NLS are appended to the original nuclease polypeptide; in certain of these embodiments, 1 NLS is at the N-terminus and 3 are at the C-terminus. In certain embodiments, an engineered nuclease polypeptide provided herein comprises at least one myc-related NLS comprising the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the myc-related NLS is at the N-terminus of the original nuclease polypeptide. In certain embodiments, an engineered nuclease polypeptide provided herein comprises at least one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the nucleoplasmin NLS is at the C-terminus. In certain embodiments an engineered nuclease polypeptide provided herein comprises at least one, or at least two, SV40 NLS sequences comprising the sequence PKKKRKV (SEQ ID NO:263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the SV40 NLSs are at the C-terminus. In certain embodiments, an engineered nuclease polypeptide provided herein comprises NLS at the N-terminus and 3 NLSs at the C-terminus, for example 1 myc-related NLS at the N-terminus and one nucleoplasmin NLS and two SV40 NLSs at the C-terminus. In certain embodiments, an engineered nuclease polypeptide provided herein comprises 1 myc-related NLS at the N-terminus with the sequence PAAKKKKLD (SEQ ID NO:279 or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, and one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, and two SV40 NLSs comprising the sequence PKKKRKV (SEQ ID NO:263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, at the C-terminus. Generally, the one or more NLS will be adjacent to the original nuclease polypeptide, either on the N-side of it, or the C-side, or both. E.g., in embodiments with 4 NLS the order can be NLS-original nuclease polypeptide-NLS-NLS-NLS. Thus, if part or all of other tags are removed, e.g., by cleavage at a cleavage sequence, the remaining portion of the engineered nuclease polypeptide will retain the NLSs.

Non-limiting examples of NLSs include an NLS sequence derived from: the NLS of the SV40 virus large T-antigen, having the amino acid sequence PKKKRKV (SEQ ID NO:263), or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; the NLS from nucleoplasmin (e.g. the nucleoplasmin bipartite NLS with the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; the c-myc NLS having the amino acid sequence PAAKRVKLD SEQ ID NO:265) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith or RQRRNELKRSP (SEQ ID NO:266) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; the hRNPA1 M9 NLS having the sequence NQSSNFGPMKGGNFGGRSSGPYGGGGQYFAKPRNQGGY (SEQ ID NO:267) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; the sequence RMRIZFKNKGKDTAELRRRRVEVSVELRKAKKDEQILKRRNV (SEQ ID NO:268) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of the IBB domain from importin-alpha; the sequences VSRKRPRP (SEQ ID NO:269) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, and PPKKARED (SEQ ID NO:270) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of the myoma T protein; the sequence PQPKKKPL (SEQ ID NO:271) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of human p53; the sequence SALIKKKKKMAP (SEQ ID NO:272) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of mouse c-abl IV; the sequences DRLRR (SEQ ID NO:273) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, and PKQKKRK (SEQ ID NO:274) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of the influenza virus NS1; the sequence RKLKKKIKKL (SEQ ID NO:275) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of the Hepatitis virus delta antigen; the sequence REKKKFLKRR (SEQ ID NO:276) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of the mouse Mx1 protein; the sequence KRKGDEVDGVDEVAKKKSKK (SEQ ID NO:277) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of the human poly(ADP-ribose) polymerase; and the sequence RKCLQAGMNLEARKTKK (SEQ ID NO:278) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, of the steroid hormone receptors (human) glucocorticoid. In certain embodiments, an engineered nuclease polypeptide disclosed herein comprises an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to amino acid sequences of one or more of SEQ ID NO: 143-177 or 229 and at least one myc-related NLS comprising the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the myc-related NLS is at the N-terminus. Additionally or alternatively, the engineered nuclease polypeptide can include at least one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the nucleoplasmin NLS is at the C-terminus. Additionally or alternatively the engineered nuclease polypeptide can include at least one, or at least two, for example one, in certain embodiments two, SV40 NLS sequences comprising the sequence PKKKRKV (SEQ ID NO: 263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the SV40 NLSs are at the C-terminus. In certain embodiments, an engineered nuclease polypeptide disclosed herein includes an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to an amino acid sequences any one of SEQ ID NO: 143-177 or 229 and one NLS at the N-terminus and three NLSs at the C-terminus, for example 1 myc-related NLS as described above at the N-terminus and one nucleoplasmin NLS as described above and two SV40 NLSs as described above at the C-terminus. In certain embodiments, an engineered nuclease polypeptide disclosed herein includes an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to any one of SEQ ID NO: 143-177 or 229 and one myc-related NLS at the N-terminus with the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; and one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, and two SV40 NLSs comprising the sequence PKKKRKV (SEQ ID NO:263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith at the C-terminus.

In certain embodiments, an engineered nuclease polypeptide disclosed herein comprises an original nuclease polypeptide of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229, (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229); and at least one myc-related NLS comprising the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the myc-related NLS is at the N-. Additionally or alternatively, the engineered nuclease polypeptide can include at least one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the nucleoplasmin NLS is at the C-terminus. Additionally or alternatively the engineered nuclease polypeptide can include at least one, or at least two, for example one, in certain embodiments two, SV40 NLS sequences comprising the sequence PKKKRKV (SEQ ID NO: 263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the SV40 NLSs are at the C-terminus. In certain embodiments, a engineered nuclease polypeptide disclosed herein includes an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229 (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229); and one NLS at the N-terminus and three NLSs at the C-terminus, for example 1 myc-related NLS as described above at the N-terminus and one nucleoplasmin NLS as described above and two SV40 NLSs as described above at the C-terminus. In certain embodiments, an engineered nuclease polypeptide disclosed herein includes an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229, (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229); and one myc-related NLS at the N-terminus with the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; and one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, and two SV40 NLSs comprising the sequence PKKKRKV (SEQ ID NO:263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith at the C-terminus.

In certain embodiments, an engineered nuclease polypeptide disclosed herein comprises an original nuclease polypeptide of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 153 and at least one myc-related NLS comprising the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the myc-related NLS is at the N-terminus. Additionally or alternatively, the engineered nuclease polypeptide can include at least one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the nucleoplasmin NLS is at the C-terminus. Additionally or alternatively the engineered nuclease polypeptide can include at least one, or at least two, for example one, in certain embodiments two, SV40 NLS sequences comprising the sequence PKKKRKV (SEQ ID NO: 263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the SV40 NLSs are at the C-terminus. In certain embodiments, a engineered nuclease polypeptide disclosed herein includes an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 153 and one NLS at the N-terminus and three NLSs at the C-terminus, for example 1 myc-related NLS as described above at the N-terminus and one nucleoplasmin NLS as described above and two SV40 NLSs as described above at the C-terminus. In certain embodiments, an engineered nuclease polypeptide disclosed herein includes an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 153, and one myc-related NLS at the N-terminus with the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; and one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, and two SV40 NLSs comprising the sequence PKKKRKV (SEQ ID NO:263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith at the C-terminus.

In certain embodiments, an engineered nuclease polypeptide disclosed herein comprises an original nuclease polypeptide of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 229 and at least one myc-related NLS comprising the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the myc-related NLS is at the N-. Additionally or alternatively, the engineered nuclease polypeptide can include at least one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the nucleoplasmin NLS is at the C-terminus. Additionally or alternatively the engineered nuclease polypeptide can include at least one, or at least two, for example one, in certain embodiments two, SV40 NLS sequences comprising the sequence PKKKRKV (SEQ ID NO: 263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; in certain embodiments the SV40 NLSs are at the C-terminus. In certain embodiments, a engineered nuclease polypeptide disclosed herein includes an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 229 and one NLS at the N-terminus and three NLSs at the C-terminus, for example 1 myc-related NLS as described above at the N-terminus and one nucleoplasmin NLS as described above and two SV40 NLSs as described above at the C-terminus. In certain embodiments, an engineered nuclease polypeptide disclosed herein includes an original nuclease polypeptide having an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 229. and one myc-related NLS at the N-terminus with the sequence PAAKKKKLD (SEQ ID NO:279) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith; and one nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith, and two SV40 NLSs comprising the sequence PKKKRKV (SEQ ID NO:263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith at the C-terminus.

b) Purification Tags

In addition to, or alternatively to, including one or more NLSs, and/or other additional amino acid sequences described herein, an engineered nuclease polypeptide disclosed herein can include one or more purification tags, which can be at the N-terminus or the C-terminus of an original nuclease polypeptide. Any suitable purification tag or tags may be used. Exemplary purification tags include a poly-his tag, which can include a gly at its N-terminus, such as a Gly-6× His tag (SEQ ID NO: 332), or a Gly-8× His tag (SEQ ID NO: 333). Further exemplary purification tags include hemagglutinin (HA), c-myc, T7, and Glu-Glu; maltose binding protein (mbp); N-terminal glutathione S-transferase (GST); calmodulin binding peptide (CBP). In certain embodiments, in some cases in addition to one or more NLS as described above, an engineered nuclease polypeptide comprises a Gly-6×his tag, for example at the N-terminus. In certain embodiments, an engineered nuclease polypeptide comprises a Gly-8× his tag, for example at the N-terminus. Generally, if a Gly-polyhis tag is used, it is the most N-terminal sequence added.

In certain embodiments, an engineered nuclease polypeptide disclosed herein can comprise a poly-his tag, or a gly-polyhis tag such as a Gly-6× His tag or a Gly-8× His tag, e.g., at the N-terminus. These Gly-6×His or Gly-8× His tags are applied for several reasons including: 1) a 6×His or 8×His tag can be used in protein purification to allow binding to the chromatographic columns for purification, and 2) the N-terminal glycine allows further, site-specific, chemical modifications that permit advanced protein engineering. Further, the Gly-6×His or Gly-8×His is designed for easy removal, if desired, by digestion with Tobacco Etch Virus (TEV) protease. The Gly-6×His 6×His or Gly-8×His tag can be positioned on the N-terminus. Gly-6×His tags are further described in Martos-Maldonado et al., Nat Commun. (2018) 17; 9(1):3307, the disclosure of which is incorporated herein.

In certain embodiments, an engineered nuclease polypeptide disclosed herein comprises an original nuclease polypeptide of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to an amino acid sequence of any one of SEQ ID NO: 143-177 or 229, or to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229, (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229); and a Gly-poly-His tag at the N-terminus, such as a Gly-6× His tag (SEQ ID NO: 332) or a Gly-8×His tag (SEQ ID NO: 333) In certain embodiments, the tag is a Gly-6×His tag (SEQ ID NO: 332). In certain embodiments, the tag is a Gly-8×His tag (SEQ ID NO: 333). Additionally or alternatively, the engineered nuclease polypeptide can include a FLAG (SEQ ID NO: 281) or 3×FLAG (SEQ ID NO: 280), at either the carboxy or the amino terminus. In certain embodiments the tag is a 3×FLAG (SEQ ID NO: 280) at the amino terminus; if a Gly-polyHis tag is also present, the 3×FLAG can be internal to the Gly-polyHis tag. In certain embodiments the tag is a 3×FLAG (SEQ ID NO: 280) at the carboxy terminus.

In certain embodiments, an engineered nuclease polypeptide disclosed herein comprises an original nuclease polypeptide of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229, (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229); and a Gly-poly-His tag at the N-terminus, such as a Gly-6× His tag (SEQ ID NO: 332) or a Gly-8×His tag (SEQ ID NO: 333) In certain embodiments, the tag is a Gly-6×His tag (SEQ ID NO: 332). In certain embodiments, the tag is a Gly-8×His tag (SEQ ID NO: 333). Additionally or alternatively, the engineered nuclease polypeptide can include a FLAG (SEQ ID NO: 281) or 3×FLAG (SEQ ID NO: 280), at either the carboxy or the amino terminus. In certain embodiments the tag is a 3×FLAG (SEQ ID NO: 280) at the amino terminus; if a Gly-polyHis tag is also present, the 3×FLAG can be internal to the Gly-polyHis tag. In certain embodiments the tag is a 3×FLAG (SEQ ID NO: 280) at the carboxy terminus.

In certain embodiments, an engineered nuclease polypeptide disclosed herein comprises an original nuclease polypeptide of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 153 and a Gly-poly-His tag at the N-terminus, such as a Gly-6× His tag (SEQ ID NO: 332) or a Gly-8×His tag (SEQ ID NO: 333) In certain embodiments, the tag is a Gly-6×His tag (SEQ ID NO: 332). In certain embodiments, the tag is a Gly-8×His tag (SEQ ID NO: 333). Additionally or alternatively, the engineered nuclease polypeptide can include a FLAG (SEQ ID NO: 281) or 3×FLAG (SEQ ID NO: 280), at either the carboxy or the amino terminus. In certain embodiments the tag is a 3×FLAG (SEQ ID NO: 280) at the amino terminus; if a Gly-polyHis tag is also present, the 3×FLAG can be internal to the Gly-polyHis tag. In certain embodiments the tag is a 3×FLAG (SEQ ID NO: 280) at the carboxy terminus.

In certain embodiments, an engineered nuclease polypeptide disclosed herein comprises an original nuclease polypeptide of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 229 and a Gly-poly-His tag at the N-terminus, such as a Gly-6× His tag (SEQ ID NO: 332) or a Gly-8×His tag (SEQ ID NO: 333) In certain embodiments, the tag is a Gly-6×His tag (SEQ ID NO: 332). In certain embodiments, the tag is a Gly-8×His tag (SEQ ID NO: 333).

FLAG or 3×FLAG

Additionally or alternatively, the engineered nuclease polypeptide can include a FLAG (SEQ ID NO: 281) or 3×FLAG (SEQ ID NO: 280), at either the carboxy or the amino terminus. In certain embodiments the tag is a 3×FLAG (SEQ ID NO: 280) at the amino terminus; if a Gly-polyHis tag is also present, the 3×FLAG can be internal to the Gly-polyHis tag. In certain embodiments the tag is a 3×FLAG (SEQ ID NO: 280) at the carboxy terminus.

Cleavage Sequences

In addition to, or alternatively to, including one or more NLSs, purification tags, and/or other additional amino acid sequences described herein, an engineered nuclease polypeptide disclosed herein can include one or more cleavage sequences, which can be at the N-terminus or the C-terminus. Any suitable cleavage sequence can be used; if a plurality of cleavage sequences is used, they may be the same or different. In certain embodiments a cleavage sequence comprises a Tobacco Etch Virus protease cleavage sequence, herein referred to as a “TEV sequence” (SEQ ID NO: 331). The TEV sequence can be at the amino terminus. Generally, the cleavage sequence, e.g., TEV sequence, is located so that cleavage at the cleavage sequence leaves other additional amino acid sequences, in particular any NLS added to the original nuclease polypeptide, intact.

Combinations

Disclosed herein are engineered nuclease polypeptides that comprise more than one additional amino acid sequence is added to an original nuclease polypeptide. In addition to such engineered nuclease polynucleotides disclosed above, additional engineered nuclease polynucleotides can include:

In certain embodiments, an engineered nuclease polypeptide, or active portion thereof, disclosed herein comprises components comprising

-   -   (i) a purification tag;     -   (ii) a cleavage site;     -   (iii) an NLS;     -   (iv) an original nuclease polypeptide; and     -   (v) 3 NLSs;

In certain embodiments the engineered nuclease polypeptide further comprises, at the C-terminus (vi) 3×FLAG. In certain embodiments, the engineered polypeptide further comprises, at the N-terminus, v(3×) FLAG. In certain embodiments the 3×FLAG at the N-terminus is between the purification tag and the cleavage site. In certain embodiments, the components are in order, i.e., in order from amino-terminus to carboxy terminus of the nuclease polypeptide. In certain embodiments, the purification tag comprises a Gly-polyhis tag, such as a Gly-6×His or Gly-8×His tag; in certain embodiments the purification tag comprises a Gly-6×His tag. In certain embodiments the cleavage site comprises TEV. In certain embodiments, the N-terminal NLS comprises a myc-related NLS, such as the c-myc NLS having the amino acid sequence PAAKRVKLD SEQ ID NO:265) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith or RQRRNELKRSP (SEQ ID NO:266) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to amino acid sequences of any one of SEQ ID NO: 143-177 and 229, or to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229, (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229). In certain embodiments, the original nuclease polypeptide does not contain the peptide motif of SEQ ID NO: 224. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to amino acid sequence of any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177 or 229. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to amino acid sequence of any one of SEQ ID NO: 149, 151, 175, or 177. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 144, 153, or 229. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 144. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 153. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% embodiments, the 3 N-terminal NLSs comprise a nucleoplasmin NLS, such as nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith and two SV40 NLSs, such as two SV40 NLSs comprising the sequence PKKKRKV (SEQ ID NO:263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith at the C-terminus. In certain embodiments the engineered nuclease polypeptide comprises an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 257. In certain embodiments the engineered nuclease polypeptide comprises an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 260. In certain embodiments the engineered nuclease polypeptide comprises an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 261. In certain embodiments, the engineered nuclease polynucleotide further comprises the 3×FLAG (SEQ ID NO: 280). In certain embodiments the engineered nuclease polypeptide comprises an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 258.

In certain embodiments, an engineered nuclease polypeptide, or active portion thereof, disclosed herein comprises

-   -   (i) a purification tag;     -   (ii) a cleavage site;     -   (iii) a NLS     -   (iv) an original nuclease polypeptide     -   (v) 3 NLS.

In certain embodiments the engineered nuclease polypeptide further comprises, at the C-terminus (vi) 3×FLAG. In certain embodiments, the engineered polypeptide further comprises, at the N-terminus, (vi) (3×) FLAG. In certain embodiments the 3×FLAG at the N-terminus is between the purification tag and the cleavage site. In certain embodiments, the components are in order, i.e., in order from amino-terminus to carboxy terminus of the nuclease polypeptide. In certain embodiments, the purification tag comprises a Gly-polyhis tag, such as a Gly-6×His or Gly-8×His tag; in certain embodiments the purification tag comprises a Gly-8×His tag. In certain embodiments the cleavage site comprises TEV. In certain embodiments, the N-terminal NLS comprises a myc-related NLS, such as the c-myc NLS having the amino acid sequence PAAKRVKLD SEQ ID NO:265) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith or RQRRNELKRSP (SEQ ID NO:266) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to amino acid sequences of any one of SEQ ID NO: 143-177 and 229, or to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229, (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229). In certain embodiments, the original nuclease polypeptide does not contain the peptide motif of SEQ ID NO: 224. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to amino acid sequence of any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177 or 229. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to amino acid sequence of any one of SEQ ID NO: 149, 151, 175, or 177. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 144, 153, or 229. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 144. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 153. In certain embodiments the original nuclease polypeptide has an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% embodiments, the 3 N-terminal NLSs comprise a nucleoplasmin NLS, such as nucleoplasmin NLS comprising the sequence KRPAATKKAGQAKKKK (SEQ ID NO:264) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith and two SV40 NLSs, such as two SV40 NLSs comprising the sequence PKKKRKV (SEQ ID NO:263) or an amino acid sequence having at least 50, 60, 70, 75, 80, 85, 90, 95, or 98% sequence identity therewith at the C-terminus. In certain embodiments the engineered nuclease polypeptide comprises an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 259. In certain embodiments the engineered nuclease polypeptide comprises an amino acid sequence of at least 50, 60%, 65%, 75%, 85%, 95%, 99% or 100% identity, for example at least 60%, in some cases at least 85%, and in certain embodiments at least 95% identity, or even 100% identity, to the amino acid sequence of SEQ ID NO: 262.

A nucleic acid-guided nuclease may be encoded by one or more polynucleotides. The polynucleotide(s) can be natural. In certain embodiments, the polynucleotide(s) comprise an engineered polynucleotide. An engineered polynucleotide is a non-naturally occurring polynucleotide, e.g., a polynucleotide coding for an engineered nucleic acid-guided nuclease where the amino acid sequence coded for has been altered from the native sequence, either by one or more substitutions in a native nuclease polypeptide, addition of one or more amino acid sequences to the C- and/or N-terminus of the nuclease polypeptide, or both. An engineered polynucleotide can additionally or alternatively be produced by codon optimization, e.g., a polynucleotide native for one species is optimized for transcription and/or translation in another species, where at least 1, 2, 5, 10, 20, 50, 100, 200, or 500 codons in the polynucleotide differs between the two. An engineered polynucleotide coding for a nucleic acid-guided nuclease, such as a nucleic acid-guided nuclease disclosed herein, can be codon optimized for a prokaryotic organism, e.g., E. coli. An engineered polynucleotide coding for a nucleic acid-guided nuclease, such as a nucleic acid-guided nuclease disclosed herein, can be codon optimized for a single celled eukaryotic organism, e.g., a yeast, such as S. cerevisae. An engineered polynucleotide coding for a nucleic acid-guided nuclease, such as a nucleic acid-guided nuclease disclosed herein, can be codon optimized for a multicellular eukaryotic organism, e.g., a human.

Disclosed herein are polynucleotides coding for nucleic acid-guided nucleases provided herein. In certain embodiments, the polynucleotides are naturally-occurring. In certain embodiments, the polynucleotides are engineered, e.g., either because the nuclease polypeptide coded for comprises an engineered nuclease polypeptide, the polynucleotide has been codon optimized, or both.

In certain embodiments, provided are one or more polynucleotides coding for one or more of an amino acid sequence corresponding any one of SEQ ID NO: 143-177 and 229, or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of an amino acid sequence corresponding any one of SEQ ID NO: 143-177 and 229. In certain of the embodiments, the encoded polypeptide does not contain the peptide motif YLFQIYNKDF (SEQ ID NO. 224). Thus, in certain embodiments, provided are polynucleotides coding for one or more of an amino acid sequence corresponding any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229 or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to the one or more of an amino acid sequence corresponding any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229. In certain embodiments, the encoded polypeptide that does not contain the peptide motif YLFQIYNKDF (SEQ ID NO. 224) comprises at least one amino acid substitution that is a radical amino acid substitution, and/or that has a Sneath's index value of greater than 20. In certain embodiments, provided are polynucleotides coding for one or more of an amino acid sequence corresponding any one of SEQ ID NO: 149, 151, 175, and 177, or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to the one or more of an amino acid sequence corresponding any one of any one of SEQ ID NO: 149, 151, 175, and 177. In certain embodiments, provided are polynucleotides coding for one or more of an amino acid sequence corresponding any one of SEQ ID NO: 144, 153, and 229, or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to the one or more of an amino acid sequence corresponding any one of any one of SEQ ID NO: 144, 153, and 229. In certain embodiments, provided are polynucleotides coding for the amino acid sequence corresponding to SEQ ID NO: 144, or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to the amino acid sequence corresponding to SEQ ID NO: 144. In certain embodiments, provided are polynucleotides coding for an amino acid sequence corresponding to SEQ ID NO: 153 or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to amino acid sequence corresponding to SEQ ID NO: 153. In certain embodiments, provided are polynucleotides coding for an amino acid sequence corresponding to SEQ ID NO: 229 or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to amino acid sequence corresponding to SEQ ID NO: 229. In certain embodiments, the sequence codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus, or both, of a polypeptide encoded by the polynucleotide. Types, combinations, N- or C-terminal, and/or order of additional amino acid sequences can be any of those disclosed herein. In certain of the latter embodiments, provided are polynucleotides coding for an amino acid sequence corresponding to SEQ ID NO: 257-262 or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to amino acid sequence corresponding to SEQ ID NO: 257-262. In certain of the above embodiments the polynucleotides are engineered polynucleotides.

In certain embodiments, provided herein are one or more polynucleotides with a sequence corresponding to any one of SEQ ID NO: 1-142 and 225-228 or a polynucleotide sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of a polynucleotide sequence corresponding any one of SEQ ID NO: 1-142 and 225-228. In certain embodiments, the sequence codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus, or both, of a polypeptide encoded by the polynucleotide. Types, combinations, N- or C-terminal, and/or order of additional amino acid sequences can be any of those disclosed herein. Sequences can be codon optimized, e.g., for one of E. coli, S. cerevisiae, or human codon optimized. In certain of the above embodiments the polynucleotides are engineered polynucleotides. In certain of the latter embodiments, the polynucleotide is codon optimized for E. coli, S. cerevisiae, or human.

In certain embodiments, provided herein are one or more polynucleotides with a sequence corresponding to any one of SEQ ID NO: 1, 5, 11, 15, 19, 23, 27, 31, 35, 39, 43, 47, 51, 55, 59, 63, 67, 71, 75, 79, 83, 87, 91, 95, 99, 103, 107, 111, 115, 119, 123, 127, 131, 135, 139, and 225, or polynucleotide sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of a polynucleotide sequence corresponding any one of SEQ ID NO: 1, 5, 11, 15, 19, 23, 27, 31, 35, 39, 43, 47, 51, 55, 59, 63, 67, 71, 75, 79, 83, 87, 91, 95, 99, 103, 107, 111, 115, 119, 123, 127, 131, 135, 139, and 225. In certain embodiments, the sequence codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus, or both, of a polypeptide encoded by the polynucleotide. Types, combinations, N- or C-terminal, and/or order of additional amino acid sequences can be any of those disclosed herein. Sequences can be codon optimized, e.g., for one of E. coli, S. cerevisiae, or human codon optimized. In certain embodiments a polynucleotide corresponding to any one of SEQ ID NO: 230-256, and 330, or polynucleotide sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of a polynucleotide sequence corresponding any one of to any one of SEQ ID NO: 230-256, and 330 is provided. In certain of the above embodiments the polynucleotides are engineered polynucleotides. In certain of the latter embodiments, the polynucleotide is codon optimized for E. coli, S. cerevisiae, or human

In some embodiments, a guide RNA (gRNA) disclosed herein can be any gRNA. In other embodiments, a gRNA disclosed herein can include a nucleic acid sequence of at least 50% nucleic acid identity to any one of SEQ ID NO: 178-188. In some embodiments, a gRNA disclosed herein includes a nucleic acid sequence having about 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, greater than 95%, or 100% nucleic acid identity to any one of SEQ ID NO: 178-188. In some embodiments, a gRNA disclosed herein includes a nucleic acid sequence of at least 50%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, greater than 95%, nucleic acid identity to any one of SEQ ID NO: 178-188. In some embodiments, the engineered polynucleotide (gRNA) can be split into fragments encompassing a synthetic tracrRNA and crRNA.

In some embodiments, gRNA disclosed herein includes a nucleic acid sequence of at least 50% nucleic acid identity to SEQ ID NO: 188. In some embodiments, a gRNA disclosed herein includes a nucleic acid sequence of about 10%, 20%, 30%, 40%, 50%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, greater than 95%, or 100% nucleic acid identity to SEQ ID NO: 188 In some embodiments, a gRNA disclosed herein includes a nucleic acid sequence of at least 50%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, greater than 95%, nucleic acid identity to SEQ ID NO: 188.

In some embodiments, polynucleotide encoding a nucleic acid-guided nuclease disclosed herein includes a nucleic acid sequence having at least 50% nucleic acid identity to any nucleic acid represented by SEQ ID NO: 1-142 or 225. In some embodiments, a nucleic acid-guided nuclease disclosed herein includes a nucleic acid sequence of about 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, greater than 95%, or 100% polynucleotide identity to any one of SEQ ID NO: 1-142 or 225.

In some instances, a nucleic acid-guided nuclease disclosed herein is encoded from a nucleic acid sequence. Such a nucleic acid can be codon optimized for expression in a desired host cell. Suitable host cells can include, as non-limiting examples, prokaryotic cells such as E. coli, P. aeruginosa, B. subtilus, and V. natriegens, eukaryotic cells, such as S. cerevisiae plant cells, insect cells, nematode cells, amphibian cells, fish cells, or mammalian cells, including human cells.

A nucleic acid sequence encoding a nucleic acid-guided nuclease can be operably linked to a promoter. Such nucleic acid sequences can be linear or circular. The nucleic acid sequences can be encompasses on a larger linear or circular nucleic acid sequences that comprises additional elements such as an origin of replication, selectable or screenable marker, terminator, other components of a targetable nuclease system, such as a guide nucleic acid, or an editing or recorder cassette as disclosed herein. In some aspects, nucleic acid sequences can include a at least one glycine, at least one 6X histidine tag, and/or at least one 3× nuclear localization signal tag. Larger nucleic acid sequences can be recombinant expression vectors, as are described in more detail later.

In general, a guide polynucleotide can complex with a compatible nucleic acid-guided nuclease and can hybridize with a target sequence, thereby directing the nuclease to the target sequence. A subject nucleic acid-guided nuclease capable of complexing with a guide polynucleotide can be referred to as a nucleic acid-guided nuclease that is compatible with the guide polynucleotide. In addition, a guide polynucleotide capable of complexing with a nucleic acid-guided nuclease can be referred to as a guide polynucleotide or a guide nucleic acid that is compatible with the nucleic acid-guided nucleases. In some embodiments, a polynucleotide (gRNA) disclosed herein can be split into fragments encompassing a synthetic tracrRNA and crRNA. Examples of gRNA can include, but are not limited to, gRNAs represented in Table 1.

TABLE 1 Exemplary gRNAs gRNA SEQ ID NO gRNA Nucleotide Sequence 178 GUCUAAAAGACCAUAUGAAUU UCUACUUUCGUAGAUCUGAUG GUCCAUGUCUGUUA 179 GUCUAAAGGCCUUAUAAAAUU UCUACUGUCGUAGAUCUGAUG GUCCAUGUCUGUUA 180 GUCUAUACAGACACUUUAAUU CUACUAUUGUAGAUCUGAUGG UCCAUGUCUGUUA 181 GUCUGAAAGACAAGUAUAAUU UCUACUAUUGUAGAUCUGAUG GUCCAUGUCUGUUA 182 GGCUAUAAGCCUUGUAUAAUU UCUACUAUUGUAGAUCUGAUG GUCCAUGUCUGUUA 183 GUUGAAACUGUAAGCGGAAUG UCUACUUGGGUAGAUCUGAUG GUCCAUGUCUGUUA 184 GCAUGAGAACCAUGCAUUUCU AAGGUACUCCAAAACCUGAUG GUCCAUGUCUGUUA 185 GUUGAGUAACCUUAAAUAAUU UCUACUGUUGUAGAUCUGUGG UCCAUGUCUGUUA 186 AUCUACAACAGUAGAAAUUUA AGCUAAGGCUUAGACCUGAUG GUCCAUGUCUGUUA 187 UAAUUUCUACUCUUGUAGAUC UGAUGGUCCAUGUCUGUUA 188 UAAUUUCUACUCUUGUAGAUC UGAUGGUCCAUGUCUGUUA

A guide polynucleotide can be DNA. A guide polynucleotide can be RNA. A guide polynucleotide can include both DNA and RNA. A guide polynucleotide can include modified or non-naturally occurring nucleotides. In cases where the guide polynucleotide comprises RNA, the RNA guide polynucleotide can be encoded by a DNA sequence on a polynucleotide molecule such as a plasmid, linear construct, or editing cassette as disclosed herein.

A guide polynucleotide can comprise a guide sequence. A guide sequence is a polynucleotide sequence having sufficient complementarity with a target polynucleotide sequence to hybridize with the target sequence and direct sequence-specific binding of a complexed nucleic acid-guided nuclease to the target sequence. The degree of complementarity between a guide sequence and its corresponding target sequence, when optimally aligned using a suitable alignment algorithm, is about or more than about 50%, 60%, 75%, 80%, 85%, 90%, 95%, 97.5%, 99%, or more. Optimal alignment may be determined with the use of any suitable algorithm for aligning sequences. In some embodiments, a guide sequence can be about or more than about 5, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 35, 40, 45, 50, 75, or more nucleotides in length. In other embodiments, a guide sequence can be less than about 75, 50, 45, 40, 35, 30, 25, 20 nucleotides in length. Preferably the guide sequence is 10-30 nucleotides long. The guide sequence can be 15-20 nucleotides in length. The guide sequence can be 15 nucleotides in length. The guide sequence can be 16 nucleotides in length. The guide sequence can be 17 nucleotides in length. The guide sequence can be 18 nucleotides in length. The guide sequence can be 19 nucleotides in length. The guide sequence can be 20 nucleotides in length.

A guide polynucleotide can include a scaffold sequence. In general, a “scaffold sequence” can include any sequence that has sufficient sequence to promote formation of a targetable nuclease complex, wherein the targetable nuclease complex includes, but is not limited to, a nucleic acid-guided nuclease and a guide polynucleotide can include a scaffold sequence and a guide sequence. Sufficient sequence within the scaffold sequence to promote formation of a targetable nuclease complex may include a degree of complementarity along the length of two sequence regions within the scaffold sequence, such as one or two sequence regions involved in forming a secondary structure. In some cases, the one or two sequence regions are included or encoded on the same polynucleotide. In some cases, the one or two sequence regions are included or encoded on separate polynucleotides. Optimal alignment may be determined by any suitable alignment algorithm, and may further account for secondary structures, such as self-complementarity within either the one or two sequence regions. In some embodiments, the degree of complementarity between the one or two sequence regions along the length of the shorter of the two when optimally aligned is about or more than about 25%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 97.5%, 99%, or higher. In some embodiments, at least one of the two sequence regions can be about or more than about 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 25, 30, 40, 50, or more nucleotides in length.

A scaffold sequence of a subject guide polynucleotide can comprise a secondary structure. A secondary structure can comprise a pseudoknot region. In some cases, binding kinetics of a guide polynucleotide to a nucleic acid-guided nuclease is determined in part by secondary structures within the scaffold sequence. In some cases, binding kinetics of a guide polynucleotide to a nucleic acid-guided nuclease is determined in part by nucleic acid sequence with the scaffold sequence. In some aspects, the invention provides a nuclease that binds to a guide polynucleotide can include a conserved scaffold sequence. For example, the nucleic acid-guided nucleases for use in the present disclosure can bind to a conserved pseudoknot region. Thus, a scaffold sequence can comprise a secondary structure. A secondary structure can comprise a pseudoknot region. In some cases, binding kinetics of a guide polynucleotide to a nucleic acid-guided nuclease is determined in part by secondary structures within the scaffold sequence. In some cases, binding kinetics of a guide polynucleotide to a nucleic acid-guided nuclease is determined in part by nucleic acid sequence with the scaffold sequence.

In certain methods, a compatible scaffold sequence for a compatible guide nucleic acid can be found by scanning sequences adjacent to a native nucleic acid-guided nuclease loci. For example, native nucleic acid-guided nucleases can be encoded on a genome within proximity to a corresponding compatible guide nucleic acid or scaffold sequence. See, e.g., Example 3.

Conserved DNA sequences for each of ART1-ART35 are provided in Table 3 below; these sequences code for conserved sequences of gRNA for the respective nuclease, and RNA sequences can be created from these sequences (Conserved RNA sequences in Table 3); in addition, some or all of the RNA sequences may undergo further processing to remove one or more nucleotides from either end. For each specific ART nuclease, the length of the spacer is a specific number of NT and the length of the scaffold sequence is a specific number of NT; thus, in certain embodiments gRNA (before processing) for a specific nuclease these lengths are as shown in Table 3, and the total length of a gRNA (before potential additional processing to produce the final gRNA) for a specific ART nuclease is the total of the two. In discussing various embodiments herein, it is understood that ART nuclease and a gRNA comprising a conserved sequence (or portion thereof, see below) refers to a specific ART nuclease, as disclosed herein, and its corresponding specific gRNA, or portion thereof.

Thus, in addition, for each ART nuclease, the conserved RNA sequence may contain portions of the RNA sequences, e.g., RNA sequence that are shortened versions of the conserved RNA, such as sequences, e.g., shortened by one or more nucleotides on either or both of the 5′ and/or 3′ ends. Without being bound by theory, it is thought that these portions can, at least in some cases, correspond to, e.g., RNA sequences that represent the final gRNA after editing, and/or highly conserved sequences present in most or all gRNAs for use with a particular ART nuclease. In the latter case, these can be, for example, RNA sequences that are needed to produce important secondary structure in the final gRNA. A gRNA for a particular ART nuclease can comprise a conserved portion, or a highly conserved portion, e.g. a highly conserved portion that comprises a nucleotide sequence for secondary structure of the gRNA, e.g., a pseudoknot.

Thus, in certain embodiments, a conserved gRNA, that is, an gRNA comprising a conserved portion such as a conserved scaffold portion, or a portion thereof, for a particular ART nuclease is used with that ART nuclease. In certain embodiments, the conserved gRNA comprises any one of the sequences of SEQ ID NO: 291-325, or a portion thereof. The portion thereof is a continuous sequence within the conserved RNA sequence, where one or more nucleotides are removed, either on the 5′ side, the 3′ side, or both (in this context, “removed” simply means not present in the portion of the conserved RNA, no matter how it is produced). The portion can be any suitable portion; in certain embodiments, the portion comprises 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30 nucleotides removed from the 5′ end of the gRNA; in certain embodiments, the portion comprises 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30 nucleotides removed from the 3′ end of the gRNA, so long as at least one nucleotide is removed. In certain embodiments, a highly conserved portion is used, e.g., a highly conserved portion that comprises a nucleotide sequence for secondary structure of the gRNA, e.g., a secondary structure comprising a pseudoknot.

In certain embodiments, a gRNA for use with a particular ART nuclease is a split gRNA, such as a split gRNA comprising modified nucleotides; in certain embodiments, a gRNA for use with a particular ART nuclease is a single gRNA, such as a single gRNA comprising modified nucleotides. Suitable gNAs, e.g., gRNAs can be produced by any suitable method e.g., in a native setting, in a host cell, synthesized (gRNA with modified nucleotides), or by any other suitable method. Such methods are well-known in the art. In certain embodiments, a gRNA for use with a particular ART nuclease is produced by synthesis. In certain embodiments, a gRNA for use with a particular ART nuclease is produced by synthesis and contains modified nucleotides, such as chemically modified nucleotides. Synthesized gRNAs with modified nucleotides are described further in US Patent Application Publication No 20160289675. In certain embodiments, a gRNA for use with a particular nucleic acid-guided nuclease comprises a conserved gRNA or portion thereof, such as a conserved gRNA or portion thereof derived from one of SEQ ID NO:291-325, as described above; in certain embodiments, the conserved gRNA comprises a highly conserved portion; e.g., a portion that forms secondary structure, such as a pseudoknot. It is understood that “nucleotide” as used herein may be the native nucleotide or a modified nucleotide; for example, SEQ ID NO: 291-325 as written are to be interpreted as being either sequences comprising natural ribonucleotides, or sequences comprising one or more chemically modified ribonucleotides, depending on context.

TABLE 3 Conserved DNA Sequences and corresponding RNA sequences Nuclease Organism of Conserved DNA Spacr Scaff Conserved RNA Designation origin sequence length length sequence ART1 Bacteroides GTCTATATGACAA 28 36 GUCUAUAUGACA plebeius strain AGTAATTTCTACTA AAGUAAUUUCUA AF27-30, TGTGTAGAT CUAUGUGUAGAU Bacteroides (SEQ ID NO: 189) (SEQ ID NO: 291) plebeius strain AF27-1 ART2 ART2: GTCTAAAGGTACC 27 36 GUCUAAAGGUAC Sulfurimonas ACCAAATTTCTACT CACCAAAUUUCU sp. SN118 GTTGTAGAT ACUGUUGUAGAU (SEQ ID NO: 190) (SEQ ID NO: 292) ART3 Prevotella GGTATAAACCATA 29 36 GGUAUAAACCAU ruminicola GTAAAATTTCTGCT AGUAAAAUUUCU strain BPI-162, ATTGCAGAT GCUAUUGCAGAU strain BPI-34 (SEQ ID NO: 191) (SEQ ID NO: 293) ART4 Clostridium sp. GTTGAATAACCTTA 27 36 GUUGAAUAACCU AM42-36 AATAATTTCTACTG UAAAUAAUUUCU TTGTAGAT ACUGUUGUAGAU (SEQ ID NO: 192) (SEQ ID NO: 294) ART5 Limihaloglobus CTCTAAGAGGCAT 29 33 CUCUAAGAGGCA sulfuriphilus ATAAAATTTCTACT UAUAAAAUUUCU GTTGTA ACUGUUGUA (SEQ ID NO: 193) (SEQ ID NO: 295) ART6 Ruminococcus GTTTAATAACCCTA 26 36 GUUUAAUAACCC bromii strain TATAATTTCTACTA UAUAUAAUUUCU AF25-7LB TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 194) (SEQ ID NO: 296) ART7 Prevotella sp. GGCTATAATGCCTA 28 36 GGCUAUAAUGCC P4-119 AGTAATTTCTACTA UAAGUAAUUUCU TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 195) (SEQ ID NO: 297) ART8 Parcubacteria GTTTAATACACCTA 26 36 GUUUAAUACACC group TAAGATTTCTACTT UAUAAGAUUUCU bacterium TTGTAGAT ACUUUUGUAGAU Gr01-1014_33 (SEQ ID NO: 196) (SEQ ID NO: 298) (aquifer metagenome) ART9 Prevotella sp. GGCTATAATGCCTA 28 36 GGCUAUAAUGCC P4-119 AGTAATTTCTACTA UAAGUAAUUUCU TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 197) (SEQ ID NO: 299) ART10 Acinetobacter GGCTAACAGCCTTT 27 36 GGCUAACAGCCU indicus strain TAAATTTCTACTGT UUUAAAUUUCUA IHIT31231 GTGTAGAT CUGUGUGUAGAU (SEQ ID NO: 198) (SEQ ID NO: 300) ART11 ART11: GCTTAGAACCTTTA 26 36 GCUUAGAACCUU ART11* Pseudo- AATAATTTCTACTA UAAAUAAUUUCU butyrivibrio TTGTAGAT ACUAUUGUAGAU xylanivorans (SEQ ID NO: 199) (SEQ ID NO: 301) strain MA3014 ART11*: None ART12 Prevotella sp. GGCTAGTATGCTTC 28 36 GGCUAGUAUGCU AATAATTTCTACTA UCAAUAAUUUCU TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 200) (SEQ ID NO: 302) ART13 Prevotella GGCTAGTATGCTTC 28 36 GGCUAGUAUGCU copri AATAATTTCTACTA UCAAUAAUUUCU TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 201) (SEQ ID NO: 303) ART14 Prevotella GGCTAGTATGCTTC 28 36 GGCUAGUAUGCU copri AATAATTTCTACTA UCAAUAAUUUCU strain AF15-25 TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 202) (SEQ ID NO: 304) ART15 Moraxella GTCTAACGACCTTT 27 36 GUCUAACGACCU bovoculi strain TAAATTTCTACTGT UUUAAAUUUCUA 58069 TTGTAGAT CUGUUUGUAGAU (SEQ ID NO: 203) (SEQ ID NO: 305) ART16 Moraxella GTCTAACGACCTTT 27 36 GUCUAACGACCU lacunata strain TAAATTTCTACTGT UUUAAAUUUCUA NCTC7911 TTGTAGAT CUGUUUGUAGAU (SEQ ID NO: 204) (SEQ ID NO: 306) ART17 Moraxella GTCTAACGACCTTT 27 36 GUCUAACGACCU lacunata NBRC TAAATTTCTACTGT UUUAAAUUUCUA 102154, TTGTAGAT CUGUUUGUAGAU Moraxella (SEQ ID NO: 205) (SEQ ID NO: 307) lacunata strain CCUG 4441 CCUG_4441T_ 0000062 ART18 Bacteroidales GGCTACATAAAGC 28 37 GGCUACAUAAAG bacterium Oil- CTATAATTTCTACT CCUAUAAUUUCU RF-744-WCA- ATGTGTAGAT ACUAUGUGUAGA WT-10 seq2, (SEQ ID NO: 206) U Muribaculaceae (SEQ ID NO: 308) bacterium DSM 108610 strain Oil-RF-744- WCA-WT-10 ART19 Bacteroides GTCTATATGACTAA 28 36 GUCUAUAUGACU plebeius strain GTAATTTCTACTAT AAGUAAUUUCUA AM49-7BH, GTGTAGAT CUAUGUGUAGAU strain OM08-14 (SEQ ID NO: 207) (SEQ ID NO: 309) ART20 Bacteroides GTCTATATGACTAA 28 36 GUCUAUAUGACU plebeius strain GTAATTTCTACTAT AAGUAAUUUCUA AM23-23 GTGTAGAT CUAUGUGUAGAU (SEQ ID NO: 208) (SEQ ID NO: 310) ART21 Bacteroides GTCTATATGACTAA 28 36 GUCUAUAUGACU plebeius strain GTAATTTCTACTAT AAGUAAUUUCUA AM31-10 GTGTAGAT CUAUGUGUAGAU (SEQ ID NO: 209) (SEQ ID NO: 311) ART22 Moraxella GTCTAACGACCTTT 27 36 GUCUAACGACCU lacunata, strain TAAATTTCTACTGT UUUAAAUUUCUA NCTC10359 TTGTAGAT CUGUUUGUAGAU (SEQ ID NO: 210) (SEQ ID NO: 312) ART23 Lachnospiraceae GTTGAATAACCTTA 27 36 GUUGAAUAACCU bacterium AATAATTTCTACTG UAAAUAAUUUCU (Human gut TTGTAGAT ACUGUUGUAGAU stool (SEQ ID NO: 211) (SEQ ID NO: 313) metagenome) isolate UBA10751 ART24 Moraxella sp. GTCTAACGACCTTT 27 36 GUCUAACGACCU VT-16-12 AAAATTTCTACTAT UUAAAAUUUCUA TTGTAGAT CUAUUUGUAGAU (SEQ ID NO: 212) (SEQ ID NO: 314) ART25 Coprococcus GTTAAGTAACCTAT 27 36 GUUAAGUAACCU sp. AF19-8AC AGTAATTTCTACTG AUAGUAAUUUCU TTGTAGAT ACUGUUGUAGAU (SEQ ID NO: 213) (SEQ ID NO: 315) ART26 Coprococcus GTTAAGTAACCTAT 26 36 GUUAAGUAACCU sp. AF16-22 AGTAATTTCTACTG AUAGUAAUUUCU TTGTAGAT ACUGUUGUAGAU (SEQ ID NO: 214) (SEQ ID NO: 316) ART27 Ruminococcus GTTTAATAACCCTA 26 36 GUUUAAUAACCC sp. AF37-3AC TATAATTTCTACTA UAUAUAAUUUCU TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 215) (SEQ ID NO: 317) ART28 Leptospira CTCTAAGAGAAGG 26 36 CUCUAAGAGAAG ryugenii strain TATAAATTTCTACT GUAUAAAUUUCU YH101 GTTGTAGAT ACUGUUGUAGAU (SEQ ID NO: 216) (SEQ ID NO: 318) ART29 Ruminococcus GTTTAATAACCCTA 27 36 GUUUAAUAACCC sp. AM28- TATAATTTCTACTA UAUAUAAUUUCU 29LB TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 217) (SEQ ID NO: 319) ART30 Ruminococcus GTTTAATAACCCTA 27 36 GUUUAAUAACCC bromii strain TATAATTTCTACTA UAUAUAAUUUCU 5AMG TTGTAGAT ACUAUUGUAGAU contig000049 (SEQ ID NO: 218) (SEQ ID NO: 320) ART31 Ruminococcus GTTTAATAACCCTA 26 36 GUUUAAUAACCC bromii strain TATAATTTCTACTA UAUAUAAUUUCU CF01-14 TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 219) (SEQ ID NO: 321) ART32 Ruminococcus GTTTAATAACCCTA 25 37 GUUUAAUAACCC sp. AM36-18 TATAATTTCTACTA UAUAUAAUUUCU TTGTAGATA ACUAUUGUAGAU (SEQ ID NO: 220) A (SEQ ID NO: 322) ART33 Ruminococcus GTTTAATCAACCCT 27 36 GUUUAAUCAACC sp. JE7A12 TAGAATTTCTACTA CUUAGAAUUUCU TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 221) (SEQ ID NO: 323) ART34 Leptospira CTCTAAGAGAGGA 26 36 CUCUAAGAGAGG ilyithenensis TATAAATTTCTACT AUAUAAAUUUCU strain GTTGTAGAT ACUGUUGUAGAU 201400974 (SEQ ID NO: 222) (SEQ ID NO: 324) ART35 Prevotella sp. GGCTATAATGCCTA 28 36 GGCUAUAAUGCC P4-98 AGTAATTTCTACTA UAAGUAAUUUCU TTGTAGAT ACUAUUGUAGAU (SEQ ID NO: 223) (SEQ ID NO: 325)

A guide polynucleotide, or “gRNA”, can be represented by any one of the sequences represented by SEQ ID NO:178-188 or other suitable gRNA. In some embodiments, the engineered polynucleotide (gRNA) can be split into fragments encompassing a synthetic tracrRNA and crRNA. In some embodiments, gRNAs represented by having at least 80%, or at least 85%, or at least 90%, or at least 95% identity to the sequences represented by any one of SEQ ID NO:178-223 and can include a synthetic tracrRNA and crRNA.

As used herein, “guide nucleic acid” or “guide polynucleotide” can refer to one or more polynucleotides and can include 1) a guide sequence capable of hybridizing to a target sequence and 2) a scaffold sequence capable of interacting with or complexing with a nucleic acid-guided nuclease as described herein. A guide nucleic acid can be provided as one or more nucleic acids. In specific embodiments, the guide sequence and the scaffold sequence are provided as a single polynucleotide. In other aspects, guide nucleic acid may include at least one amplicon targeting fragments.

A guide nucleic acid can be compatible with a nucleic acid-guided nuclease when the two elements can form a functional targetable nuclease complex capable of cleaving a target sequence. In certain methods, a compatible scaffold sequence for a compatible guide nucleic acid can be found by scanning sequences adjacent to a native nucleic acid-guided nuclease loci. For example, native nucleic acid-guided nucleases can be encoded on a genome within proximity to a corresponding compatible guide nucleic acid or scaffold sequence.

Nucleic acid-guided nucleases can be compatible with guide nucleic acids that are not found within the nucleases endogenous host. Such orthogonal guide nucleic acids can be determined by empirical testing. Orthogonal guide nucleic acids can come from different bacterial species or be synthetic or otherwise engineered to be non-naturally occurring.

Orthogonal guide nucleic acids that are compatible with a common nucleic acid-guided nuclease can comprise one or more common features. Common features can include sequence outside a pseudoknot region. Common features can include a pseudoknot region. Common features can include a primary sequence or secondary structure.

A guide nucleic acid can be engineered to target a desired target sequence by altering the guide sequence such that the guide sequence is complementary to the target sequence, thereby allowing hybridization between the guide sequence and the target sequence. A guide nucleic acid with an engineered guide sequence can be referred to as an engineered guide nucleic acid. Engineered guide nucleic acids are often non-naturally occurring and are not found in nature.

Engineered guide nucleic acids can be formed using a Synthetic Tracr RNA (STAR) system. STAR, when combined with a Cas12a protein, can form at least one ribonucleoprotein (RNP) complex that targets a specific genomic locus. STAR takes advantage of the natural properties of the CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) where the CRISPR system functions much like an immune system against invading viruses and plasmid DNA. Short DNA sequences (spacers) from invading viruses are incorporated at CRISPR loci within the bacterial genome and serve as “memory” of previous infections. Reinfection triggers complementary mature CRISPR RNA (crRNA) to find a matching viral sequence. Together, the crRNA and trans-activating crRNA (tracrRNA) guide CRISPR-associated (Cas) nuclease to cleave double-strand breaks in “foreign” DNA sequences. The prokaryotic CRISPR “immune system” has been engineered to function as an RNA-guided, mammalian genome editing tool that is simple, easy and quick to implement. STAR (which includes synthetic crRNA and tracrRNA) when combined with Cas12a protein can form ribonucleoprotein (RNP) complexes that target a specific genomic locus. Engineered guide nucleic acids formed with the RNA (STAR) system can result in a split gRNA. An example of a split gRNA for use as disclosed herein can include the sequence represented by SEQ ID NO:188

In some embodiments, a ribonucleoprotein (RNP) complex can include at least one nuclease disclosed herein. In some aspects, a RNP complex can include at least one nuclease having an amino acid sequence of about 75%, about 85%, about 95%, about 99%, or is identical to SEQ ID NOs: 143-177 or 229. In some examples, a RNP complex including a nuclease disclosed herein can further include at least one STAR gRNA. In some other examples, a RNP complex including a nuclease disclosed herein can further include at least one non-STAR gRNA. In some other examples, a RNP complex including a nuclease disclosed herein can further include at least one polynucleotide. In some aspects, a polynucleotide included in a RNP complex disclosed herein can be greater than about 50 nucleotides in length. In some embodiments, a polynucleotide included in a RNP complex disclosed herein can be about 50, to about 150, to about 500, to about 1000 nucleotides, or greater than 1000 nucleotides in length. In some embodiments, more than one nuclease can be added to an RNP complex to affect the overall editing efficiency. In other embodiments, more than one gRNA can be added to the RNP complex to allow for multiplexed editing of more than one site in a single transfection for improved efficiency. In other embodiments, more than one DNA template can be added to the RNP to allow for multiplexed editing at one or more sites based on a specific desired repair outcome.

Nuclease Systems

In other embodiments disclosed herein are targetable nuclease systems. In certain embodiments, targetable nuclease system can include a nucleic acid-guided nuclease and a compatible guide nucleic acid (also referred to interchangeably herein as “guide polynucleotide” and “gRNA”). A targetable nuclease system can include a nucleic acid-guided nuclease or a polynucleotide sequence encoding the nucleic acid-guided nuclease. A targetable nuclease system can include a guide nucleic acid or a polynucleotide sequence encoding the guide nucleic acid.

In general, a targetable nuclease system as disclosed herein can be characterized by elements that promote the formation of a targetable nuclease complex at the site of a target sequence, wherein the targetable nuclease complex includes a nucleic acid-guided nuclease and a guide nucleic acid.

A guide nucleic acid together with a nucleic acid-guided nuclease forms a targetable nuclease complex which is capable of binding to a target sequence within a target polynucleotide, as determined by the guide sequence of the guide nucleic acid.

In general, to generate a double stranded break, in most cases a targetable nuclease complex binds to a target sequence as determined by the guide nucleic acid, and the nuclease has to recognize a protospacer adjacent motif (PAM) sequence adjacent to the target sequence.

A targetable nuclease complex can include a nucleic acid-guided nuclease comprising a sequence of any one of SEQ ID NO: 143-177 and 229 and a compatible guide nucleic acid. A targetable nuclease complex can include a nucleic acid-guided nuclease of any one of SEQ ID NO: 143-151 and a compatible guide nucleic acid. A targetable nuclease complex can include a nucleic acid-guided nuclease of any one of SEQ ID NO: 143-177 and a compatible guide nucleic acid represented by SEQ ID NO:178-188. A targetable nuclease complex can include a nucleic acid-guided nuclease encoding a nuclease represented by any one of SEQ ID NO: 1-142 and a compatible gRNA or a gRNA represented by any one of SEQ ID NO:178-188. In certain embodiments, the guide nucleic acid can include a scaffold sequence compatible with the nucleic acid-guided nuclease selected. In any of these embodiments, the guide sequence can be engineered to be complementary to any desired target sequence. The guide sequence selected can be engineered to hybridize to any desired target sequence.

A target sequence of a targetable nuclease complex can be any polynucleotide endogenous or exogenous to a prokaryotic or eukaryotic cell, or in vitro. For example, the target sequence can be a polynucleotide residing in the nucleus of the eukaryotic cell. A target sequence can be a sequence coding a gene product (e.g., a protein) or a non-coding sequence (e.g., a regulatory polynucleotide or a junk DNA). It is contemplated herein that the target sequence should be associated with a PAM; that is, a short sequence recognized by a targetable nuclease complex. The precise sequence and length requirements for a PAM differ depending on the nucleic acid-guided nuclease used, but PAMs can be a 2-5 base pair sequences adjacent the target sequence. Examples of PAM sequences are given in the examples section below, and the skilled person will be able to identify further PAM sequences for use with a given nucleic acid-guided nuclease. Further, engineering of the PAM Interacting (PI) domain may allow programming of PAM specificity, improve target site recognition fidelity, and increase the versatility of a nucleic acid-guided nuclease genome engineering platform. Nucleic acid-guided nucleases may be engineered to alter their PAM specificity, for example as described in Kleinstiver et al., Nature. 2015 Jul. 23; 523 (7561): 481-5, the disclosure of which is incorporated herein in its entirety.

A PAM site is a nucleotide sequence in proximity to a target sequence. In most cases, a nucleic acid-guided nuclease can only cleave a target sequence if an appropriate PAM is present. PAMs are nucleic acid-guided nuclease-specific and can be different between two different nucleic acid-guided nucleases. A PAM can be 5′ or 3′ of a target sequence. A PAM can be upstream or downstream of a target sequence. A PAM can be 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more nucleotides in length. Often, a PAM is between 2-6 nucleotides in length.

In some embodiments disclosed herein, a PAM can be provided on a separate oligonucleotide. In such cases, providing PAM on a oligonucleotide allows cleavage of a target sequence that otherwise would not be able to be cleave because no adjacent PAM is present on the same polynucleotide as the target sequence.

Polynucleotide sequences encoding a component of a targetable nuclease system can include one or more vectors. In general, the term “vector” as used herein can refer to a nucleic acid molecule capable of transporting another nucleic acid to which it has been linked. Vectors include, but are not limited to, nucleic acid molecules that are single-stranded, double-stranded, or partially double-stranded; nucleic acid molecules that comprise one or more free ends, no free ends (e.g. circular); nucleic acid molecules that comprise DNA, RNA, or both; and other varieties of polynucleotides known in the art. One type of vector is a “plasmid,” which refers to a circular double stranded DNA loop into which additional DNA segments can be inserted, such as by standard molecular cloning techniques. Another type of vector is a viral vector, wherein virally-derived DNA or RNA sequences are present in the vector for packaging into a virus (e.g. retroviruses, replication defective retroviruses, adenoviruses, replication defective adenoviruses, and adeno-associated viruses). Other vectors (e.g., non-episomal mammalian vectors) can be integrated into the genome of a host cell upon introduction into the host cell. Recombinant expression vectors can include a nucleic acid of the invention in a form suitable for expression of the nucleic acid in a host cell, can mean that the recombinant expression vectors include one or more regulatory elements, which may be selected on the basis of the host cells to be used for expression, that is operatively-linked to the nucleic acid sequence to be expressed.

In some embodiments, a regulatory element can be operably linked to one or more elements of a targetable nuclease system so as to drive expression of the one or more components of the targetable nuclease system.

In some embodiments, a vector can include a regulatory element operably linked to a polynucleotide sequence encoding a nucleic acid-guided nuclease. The polynucleotide sequence encoding the nucleic acid-guided nuclease can be codon optimized for expression in targeted cells, such as prokaryotic or eukaryotic cells. Eukaryotic cells can be yeast, fungi, algae, plant, animal, or human cells. Eukaryotic cells can be those derived from an organism, such as a mammal, including but not limited to human, mouse, rat, rabbit, dog, or non-human mammal including non-human primate.

In general, codon optimization can refer to a process of modifying a nucleic acid sequence for enhanced expression in the host cells of interest by replacing at least one codon or more of the native sequence with codons that are more frequently or most frequently used in the genes of that host cell while maintaining the native amino acid sequence. Various species exhibit certain bias for codons of a certain amino acid. As contemplated herein, genes can be tailored for optimal gene expression in a given organism based on codon optimization. Codon usage tables are readily available, for example, at the “Codon Usage Database” available at www.kazusa.orjp and these tables can be adapted in a number of ways. See Nakamura, Y., et al. “Codon usage tabulated from the international DNA sequence databases: status for the year 2000” Nucl. Acids Res. 28:292 (2000). In certain embodiments, provided are codon optimized polynucleotides. In certain embodiments, provided are one or more polynucleotides coding for one or more of an amino acid sequence corresponding any one of SEQ ID NO: 143-177 and 229; or to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229, (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229); or an amino acid sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of an amino acid sequence corresponding any one of SEQ ID NO: 143-177 and 229; or to the amino acid sequence of any of SEQ ID NO: 144, 153, and 229, (in some cases SEQ ID NO: 144; in some cases SEQ ID NO: 153; in some cases SEQ ID NO: 229); wherein the polynucleotide is codon optimized, e.g., codon optimized for E. coli, or codon optimized for S. cerevisiae, or codon optimized for humans. In certain embodiments, the sequence codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus, or both, of a polypeptide encoded by the polynucleotide. Types, combinations, N- or C-terminal, and/or order of additional amino acid sequences can be any of those disclosed herein.

In certain embodiments, provided herein are one or more codon optimized polynucleotides corresponding to any of SEQ ID NO: 2-4, 6-10, 12-14, 16-18, 20-22, 24-26, 28-30, 32-34, 36-38, 40-42, 44-46, 48-50, 52-54, 56-58, 60-62, 64-66, 68-70, 72-74, 76-78, 80-82, 84-86, 88-90, 92-94, 96-98, 100-102, 104-106, 108-110, 112-114, 116-118, 120-122, 124-126, 128-130, 132-134, 136-138, 140-142, 226-228, and 330 or polynucleotide sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of a polynucleotide sequence corresponding any one of SEQ ID NO: 2-4, 6-10, 12-14, 16-18, 20-22, 24-26, 28-30, 32-34, 36-38, 40-42, 44-46, 48-50, 52-54, 56-58, 60-62, 64-66, 68-70, 72-74, 76-78, 80-82, 84-86, 88-90, 92-94, 96-98, 100-102, 104-106, 108-110, 112-114, 116-118, 120-122, 124-126, 128-130, 132-134, 136-138, 140-142, 226-228, and 330. In certain embodiments, the sequence codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus, or both, of a polypeptide encoded by the polynucleotide. Types, combinations, N- or C-terminal, and/or order of additional amino acid sequences can be any of those disclosed herein. In certain embodiments, provided herein are one or more E. coli codon optimized polynucleotides corresponding to any of SEQ ID NO: 2, 6, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 226, and 330 or polynucleotide sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of a polynucleotide sequence corresponding any one of SEQ ID NO: 2, 6, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 226, and 330. In certain embodiments, the sequence codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus, or both, of a polypeptide encoded by the polynucleotide. Types, combinations, N- or C-terminal, and/or order of additional amino acid sequences can be any of those disclosed herein. In certain embodiments, provided herein are one or more S. cerivisiae codon optimized polynucleotides corresponding to any of SEQ ID NO: 3, 7, 9, 13, 17, 21, 25, 29, 33, 37, 41, 45, 49, 53, 57, 61, 65, 69, 73, 77, 81, 85, 89, 93, 97, 101, 105, 109, 113, 117, 121, 125, 129, 133, 137, 141, and 227 or polynucleotide sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of a polynucleotide sequence corresponding any one of SEQ ID NO: 3, 7, 9, 13, 17, 21, 25, 29, 33, 37, 41, 45, 49, 53, 57, 61, 65, 69, 73, 77, 81, 85, 89, 93, 97, 101, 105, 109, 113, 117, 121, 125, 129, 133, 137, 141, and 227. In certain embodiments, the sequence codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus, or both, of a polypeptide encoded by the polynucleotide. Types, combinations, N- or C-terminal, and/or order of additional amino acid sequences can be any of those disclosed herein. In certain embodiments, provided herein are one or more human codon optimized polynucleotides corresponding to any of SEQ ID NO: 4, 10, 14, 18, 22, 26, 30, 34, 38, 42, 46, 50, 54, 58, 62, 66, 70, 74, 78, 82, 86, 90, 94, 98, 102, 106, 110, 114, 118, 122, 126, 130, 134, 138, 142, and 228 or polynucleotide sequence that is at least 50, 60, 70, 80, 90, 95, or 100% identical to one or more of a polynucleotide sequence corresponding any one of SEQ ID NO: 4, 10, 14, 18, 22, 26, 30, 34, 38, 42, 46, 50, 54, 58, 62, 66, 70, 74, 78, 82, 86, 90, 94, 98, 102, 106, 110, 114, 118, 122, 126, 130, 134, 138, 142, and 228. In certain embodiments, the sequence codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus, or both, of a polypeptide encoded by the polynucleotide. Types, combinations, N- or C-terminal, and/or order of additional amino acid sequences can be any of those disclosed herein.

A nucleic acid-guided nuclease and one or more guide nucleic acids can be delivered either as DNA or RNA. Delivery of an nucleic acid-guided nuclease and guide nucleic acid both as RNA (unmodified or containing base or backbone modifications) molecules can be used to reduce the amount of time that the nucleic acid-guided nuclease persist in the cell. This may reduce the level of off-target cleavage activity in the target cell. Since delivery of a nucleic acid-guided nuclease as mRNA takes time to be translated into protein, it might be advantageous to deliver the guide nucleic acid several hours following the delivery of the nucleic acid-guided nuclease mRNA, to maximize the level of guide nucleic acid available for interaction with the nucleic acid-guided nuclease protein. In other cases, the nucleic acid-guided nuclease mRNA and guide nucleic acid are delivered concomitantly. In other examples, the guide nucleic acid is delivered sequentially, such as 0.5, 1, 2, 3, 4, or more hours after the nucleic acid-guided nuclease mRNA.

Guide nucleic acid in the form of RNA or encoded on a DNA expression cassette can be introduced into a host cell can include a nucleic acid-guided nuclease encoded on a vector or chromosome. The guide nucleic acid may be provided in the cassette one or more polynucleotides, which may be contiguous or non-contiguous in the cassette. In specific embodiments, the guide nucleic acid is provided in the cassette as a single contiguous polynucleotide.

A variety of delivery systems can be used to introduce a nucleic acid-guided nuclease (DNA or RNA) and guide nucleic acid (DNA or RNA) into a host cell. In accordance with these embodiments, systems of use can include, but are not limited to, yeast systems, lipofection systems, microinjection systems, biolistic systems, virosomes, liposomes, immunoliposomes, polycations, lipid:nucleic acid conjugates, virions, artificial virions, viral vectors, electroporation, cell permeable peptides, nanoparticles, nanowires (Shalek et al., Nano Letters, 2012), exosomes. Molecular trojan horses liposomes (Pardridge et al., Cold Spring Harb Protoc; 2010; doi:10.1101/pdb.prot5407) may be used to deliver an engineered nuclease and guide nuclease across the blood brain barrier.

In some embodiments, an editing template is also provided. An editing template may be a component of a vector as described herein, contained in a separate vector, or provided as a separate polynucleotide, such as an oligonucleotide, linear polynucleotide, or synthetic polynucleotide. In some cases, an editing template is on the same polynucleotide as a guide nucleic acid. In some embodiments, an editing template is designed to serve as a template in homologous recombination, such as within or near a target sequence nicked or cleaved by a nucleic acid-guided nuclease as a part of a complex as disclosed herein. An editing template polynucleotide can be of any suitable length, such as about or more than about 10, 15, 20, 25, 50, 75, 100, 150, 200, 500, 1000, or more nucleotides in length. In some embodiments, the editing template polynucleotide is complementary to a portion of a polynucleotide can include the target sequence. When optimally aligned, an editing template polynucleotide might overlap with one or more nucleotides of a target sequences (e.g. about or more than about 1, 5, 10, 15, 20, 25, 30, 35, 40, or more nucleotides). In some embodiments, when a editing template sequence and a polynucleotide can include a target sequence are optimally aligned, the nearest nucleotide of the template polynucleotide is within about 1, 5, 10, 15, 20, 25, 50, 75, 100, 200, 300, 400, 500, 1000, 5000, 10000, or more nucleotides from the target sequence.

In some embodiments, methods are provided for delivering one or more polynucleotides, such as or one or more vectors or linear polynucleotides as described herein, one or more transcripts thereof, and/or one or proteins transcribed therefrom, to a host cell. In some aspects, the invention further provides cells produced by such methods, and organisms can include or produced from such cells. In some embodiments, an engineered nuclease in combination with (and optionally complexed with) a guide nucleic acid is delivered to a cell.

Conventional viral and non-viral based gene transfer methods can be used to introduce nucleic acids in cells, such as prokaryotic cells, eukaryotic cells, mammalian cells, or target tissues. Such methods can be used to administer nucleic acids encoding components of an engineered nucleic acid-guided nuclease system to cells in culture, or in a host organism. Non-viral vector delivery systems include DNA plasmids, RNA (e.g. a transcript of a vector described herein), naked nucleic acid, and nucleic acid complexed with a delivery vehicle, such as a liposome. Viral vector delivery systems include DNA and RNA viruses, which have either episomal or integrated genomes after delivery to the cell. Any gene therapy method known in the art is contemplated of use herein. Methods of non-viral delivery of nucleic acids include are contemplated herein. Adeno-associated virus (“AAV”) vectors may also be used to transduce cells with target nucleic acids, e.g., in the in vitro production of nucleic acids and peptides, and for in vivo and ex vivo gene therapy procedures.

In some embodiments, a host cell is transiently or non-transiently transfected with one or more vectors, linear polynucleotides, polypeptides, nucleic acid-protein complexes, or any combination thereof as described herein. In some embodiments, a cell in transfected in vitro, in culture, or ex vivo. In some embodiments, a cell is transfected as it naturally occurs in a subject. In some embodiments, a cell that is transfected is taken from a subject. In some embodiments, the cell is derived from cells taken from a subject, such as a cell line.

In some embodiments, a cell transfected with one or more vectors, linear polynucleotides, polypeptides, nucleic acid-protein complexes, or any combination thereof as described herein is used to establish a new cell line can include one or more transfection-derived sequences. In some embodiments, a cell transiently transfected with the components of an engineered nucleic acid-guided nuclease system as described herein (such as by transient transfection of one or more vectors, or transfection with RNA), and modified through the activity of an engineered nuclease complex, is used to establish a new cell line can include cells containing the modification but lacking any other exogenous sequence.

In some embodiments, one or more vectors described herein are used to produce a non-human transgenic cell, organism, animal, or plant. In some embodiments, the transgenic animal is a mammal, such as a mouse, rat, or rabbit. Methods for producing transgenic cells, organisms, plants, and animals are known in the art, and generally begin with a method of cell transformation or transfection, such as described herein.

In certain embodiments, an engineered nuclease complex, “target sequence” can refer to a sequence to which a guide sequence is designed to have complementarity, where hybridization between a target sequence and a guide sequence promotes the formation of an engineered nuclease complex. A target sequence can include any polynucleotide, such as DNA, RNA, or a DNA-RNA hybrid. A target sequence can be located in the nucleus or cytoplasm of a cell. A target sequence can be located in vitro or in a cell-free environment.

In some embodiments, formation of an engineered nuclease complex can include a guide nucleic acid hybridized to a target sequence and complexed with one or more novel engineered nucleases as disclosed herein renders cleavage of one or both strands in or near (e.g. within 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 20, 30, 40, 50, or more base pairs from) the targeted sequence. Cleavage can occur within a target sequence, 5′ of the target sequence, upstream of a target sequence, 3′ of the target sequence, or downstream of a target sequence.

In some embodiments, one or more vectors driving expression of one or more components of a targetable nuclease system are introduced into a host cell or in vitro such formation of a targetable nuclease complex at one or more target sites. For example, a nucleic acid-guided nuclease and a guide nucleic acid can each be operably linked to separate regulatory elements on separate vectors. Alternatively, two or more of the elements expressed from the same or different regulatory elements, can be combined in a single vector, with one or more additional vectors providing any components of the targetable nuclease system not included in the first vector. Targetable nuclease system elements that are combined in a single vector may be arranged in any suitable orientation, such as one element located 5′ with respect to (“upstream” of) or 3′ with respect to (“downstream” of) a second element. The coding sequence of one element may be located on the same or opposite strand of the coding sequence of a second element, and oriented in the same or opposite direction. In some embodiments, a single promoter drives expression of a transcript encoding a nucleic acid-guided nuclease and one or more guide nucleic acids. In some embodiments, a nucleic acid-guided nuclease and one or more guide nucleic acids are operably linked to and expressed from the same promoter. In other embodiments, one or more guide nucleic acids or polynucleotides encoding the one or more guide nucleic acids are introduced into a cell or in vitro environment already can include a nucleic acid-guided nuclease or polynucleotide sequence encoding the nucleic acid-guided nuclease.

In some embodiments, when multiple different guide sequences are used, a single expression construct may be used to target nuclease activity to multiple different, corresponding target sequences within a cell or in vitro. For example, a single vector can include about or more than about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, or more guide sequences. In other embodiments, about or more than about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or more such guide-sequence-containing vectors can be provided, and optionally, delivered to a cell in vivo or in vitro.

In some embodiments, methods and compositions disclosed herein can include more than one guide nucleic acid, such that each guide nucleic acid has a different guide sequence, thereby targeting a different target sequence. In accordance with these embodiments, multiple guide nucleic acids can be using in multiplexing, wherein multiple targets are targeted simultaneously. Additionally or alternatively, the multiple guide nucleic acids are introduced into a population of cells, such that each cell in a population received a different or random guide nucleic acid, thereby targeting multiple different target sequences across a population of cells. In such cases, the collection of subsequently altered cells can be referred to as a library.

In other embodiments, methods and compositions disclosed herein can include multiple different nucleic acid-guided nucleases, each with one or more different corresponding guide nucleic acids, thereby allowing targeting of different target sequences by different nucleic acid-guided nucleases. In some such cases, each nucleic acid-guided nuclease can correspond to a distinct plurality of guide nucleic acids, allowing two or more non-overlapping, partially overlapping, or completely overlapping multiplexing events.

In some embodiments, the nucleic acid-guided nuclease has DNA cleavage activity or RNA cleavage activity. In some embodiments, the nucleic acid-guided nuclease directs cleavage of one or both strands at the location of a target sequence, such as within the target sequence and/or within the complement of the target sequence. In some embodiments, the nucleic acid-guided nuclease directs cleavage of one or both strands within about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 50, 100, 200, 500, or more base pairs from the first or last nucleotide of a target sequence.

In certain embodiments, the invention provides for methods of modifying a target sequence in vitro, or in a prokaryotic or eukaryotic cell, which can be in vivo, ex vivo, or in vitro. In some embodiments, the method includes sampling a cell or population of cells such as prokaryotic cells, or those from a human or non-human animal or plant (including micro-algae or other organism), and modifying the cell or cells. Culturing may occur at any stage in vitro or ex vivo. The cell or cells may even be re-introduced into the host, such as a non-human animal or plant (including micro-algae). For re-introduced cells, they can be stem cells.

In some embodiments, the method includes allowing a targetable nuclease complex to bind to the target sequence to effect cleavage of the target sequence, thereby modifying the target sequence, wherein the targetable nuclease complex includes a nucleic acid-guided nuclease complexed with a guide nucleic acid wherein the guide sequence of the guide nucleic acid is hybridized to a target sequence within a target polynucleotide. In some aspects, the invention provides a method of modifying expression of a target polynucleotide in in vitro or in a prokaryotic or eukaryotic cell. In some embodiments, the method includes allowing an targetable nuclease complex to bind to a target sequence with the target polynucleotide such that the binding can lead to in increased or decreased expression of the target polynucleotide; wherein the targetable nuclease complex includes an nucleic acid-guided nuclease complexed with a guide nucleic acid, and wherein the guide sequence of the guide nucleic acid is hybridized to a target sequence within the target polynucleotide.

In certain embodiments, the invention provides kits containing any one or more of the elements disclosed in the above methods and compositions. Elements may provide individually or in combinations, and may be provided in any suitable container, such as a vial, a bottle, or a tube. In some embodiments, the kit includes instructions in one or more languages, for example in more than one language.

In some embodiments, a kit comprises one or more reagents for use in a process utilizing one or more of the elements described herein. Reagents may be provided in any suitable container. For example, a kit may provide one or more reaction or storage buffers. Reagents can be provided in a form that is usable in an assay, or in a form that requires addition of one or more other components before use (e.g. in concentrate or lyophilized form). A buffer can be any buffer, including but not limited to a sodium carbonate buffer, a sodium bicarbonate buffer, a borate buffer, a Tris buffer, a MOPS buffer, a HEPES buffer, and combinations thereof. In some embodiments, the buffer is alkaline. In some embodiments, the buffer has a pH from about 7 to about 10. In some embodiments, the kit includes one or more oligonucleotides corresponding to a guide sequence for insertion into a vector so as to operably link the guide sequence and a regulatory element. In some embodiments, the kit includes a editing template.

In some embodiments, a targetable nuclease complex has a wide variety of utility including modifying (e.g., deleting, inserting, translocating, inactivating, activating) a target sequence in a multiplicity of cell types. As such a targetable nuclease complex of the invention has a broad spectrum of applications in, e.g., biochemical pathway optimization, genome-wide studies, genome engineering, gene therapy, drug screening, disease diagnosis, and prognosis. An exemplary targetable nuclease complex includes a nucleic acid-guided nuclease as disclosed herein complexed with a guide nucleic acid, wherein the guide sequence of the guide nucleic acid can hybridize to a target sequence within the target polynucleotide. A guide nucleic acid can include a guide sequence linked to a scaffold sequence. A scaffold sequence can include one or more sequence regions with a degree of complementarity such that together they form a secondary structure.

An editing template polynucleotide can include a sequence to be integrated (e.g., a mutated gene). A sequence for integration may be a sequence endogenous or exogenous to the cell. Examples of a sequence to be integrated include polynucleotides encoding a protein or a non-coding RNA (e.g., a microRNA). Thus, the sequence for integration may be operably linked to an appropriate control sequence or sequences. Alternatively, the sequence to be integrated may provide a regulatory function. Sequence to be integrated may be a mutated or variant of an endogenous wild-type sequence. Alternatively, sequence to be integrated may be a wild-type version of an endogenous mutated sequence. Additionally or alternatively, sequenced to be integrated may be a variant or mutated form of an endogenous mutated or variant sequence.

In certain embodiments, an upstream or downstream sequence can include from about 20 bp to about 2500 bp, for example, about 50, 100, 200, 300, 400, 500, 600, 700, 800, 900, 1000, 1100, 1200, 1300, 1400, 1500, 1600, 1700, 1800, 1900, 2000, 2100, 2200, 2300, 2400, or about 2500 bp. In some embodiments, an exemplary upstream or downstream sequence has about 15 bp to about 2000 bp, about 30 bp to about 1000 bp, about 50 bp to about 750 bp, about 600 bp to about 1000 bp, or about 700 bp to about 1000 bp.

In some embodiments, the editing template polynucleotide can further include a marker. In certain embodiments, some markers can facilitate screening for targeted integrations. Examples of suitable markers can include, but are not limited to, restriction sites, fluorescent proteins, or selectable markers. In certain embodiments, an exogenous polynucleotide template can be constructed using recombinant techniques.

In one embodiment, an exemplary method for modifying a target polynucleotide by integrating an editing template polynucleotide, a double stranded break is introduced into the genome sequence by an engineered nuclease complex, the break can be repaired via homologous recombination using an editing template such that the template is integrated into the target polynucleotide. The presence of a double-stranded break can increase the efficiency of integration of the editing template.

Disclosed herein are methods for modifying expression of a polynucleotide in a cell. Some methods include increasing or decreasing expression of a target polynucleotide by using a targetable nuclease complex that binds to the target polynucleotide.

Detection of the gene expression level can be conducted in real time in an amplification assay. In one aspect, the amplified products can be directly visualized with fluorescent DNA-binding agents including but not limited to DNA intercalators and DNA groove binders. Because the amount of the intercalators incorporated into the double-stranded DNA molecules can be proportional to the amount of the amplified DNA products, one can conveniently determine the amount of the amplified products by quantifying the fluorescence of the intercalated dye using conventional optical systems in the art. DNA-binding dye suitable for this application include, but are not limited to, SYBR green, SYBR blue, DAPI, propidium iodine, Hoeste, SYBR gold, ethidium bromide, acridines, proflavine, acridine orange, acriflavine, fluorcoumanin, ellipticine, daunomycin, chloroquine, distamycin D, chromomycin, homidium, mithramycin, ruthenium polypyridyls, anthramycin, and others known by one of skill in the art.

In some embodiments, other fluorescent labels such as sequence specific probes can be employed in the amplification reaction to facilitate the detection and quantification of the amplified products. Probe-based quantitative amplification relies on the sequence-specific detection of a desired amplified product. It utilizes fluorescent, target-specific probes (e.g., TaqMan™ probes) resulting in increased specificity and sensitivity. Methods for performing probe-based quantitative amplification are well established in the art.

In some embodiments, an agent-induced change in expression of sequences associated with a signaling biochemical pathway can also be determined by examining the corresponding gene products. Determining the protein level can involve a) contacting the protein contained in a biological sample with an agent that specifically bind to a protein associated with a signaling biochemical pathway; and (b) identifying any agent:protein complex so formed. In one aspect of this embodiment, the agent that specifically binds a protein associated with a signaling biochemical pathway is an antibody, preferably a monoclonal antibody.

In some embodiments, the amount of agent:polypeptide complexes formed during the binding reaction can be quantified by standard quantitative assays. As illustrated above, the formation of agent:polypeptide complex can be measured directly by the amount of label remained at the site of binding. In an alternative, the protein associated with a signaling biochemical pathway is tested for its ability to compete with a labeled analog for binding sites on the specific agent. In this competitive assay, the amount of label captured is inversely proportional to the amount of protein sequences associated with a signaling biochemical pathway present in a test sample.

In some embodiments, a number of techniques for protein analysis based on the general principles outlined above are known in the art and contemplated herein. They include but are not limited to radioimmunoassays, ELISA (enzyme linked immunoradiometric assays), “sandwich” immunoassays, immunoradiometric assays, in situ immunoassays (using e.g., colloidal gold, enzyme or radioisotope labels), western blot analysis, immunoprecipitation assays, immunofluorescent assays, and SDS-PAGE.

In some embodiments, in practicing a subject method, it may be desirable to discern the expression pattern of a protein associated with a signaling biochemical pathway in different bodily tissue, in different cell types, and/or in different subcellular structures. These studies can be performed with the use of tissue-specific, cell-specific or subcellular structure specific antibodies capable of binding to protein markers that are preferentially expressed in certain tissues, cell types, or subcellular structures.

In other embodiment, an altered expression of a gene associated with a signaling biochemical pathway can also be determined by examining a change in activity of the gene product relative to a control cell. The assay for an agent-induced change in the activity of a protein associated with a signaling biochemical pathway will dependent on the biological activity and/or the signal transduction pathway that is under investigation. For example, where the protein is a kinase, a change in its ability to phosphorylate the downstream substrate(s) can be determined by a variety of assays known in the art. Representative assays include but are not limited to immunoblotting and immunoprecipitation with antibodies such as anti-phosphotyrosine antibodies that recognize phosphorylated proteins. In addition, kinase activity can be detected by high throughput chemiluminescent assays.

In certain embodiments, where the protein associated with a signaling biochemical pathway is part of a signaling cascade leading to a fluctuation of intracellular pH condition, pH sensitive molecules such as fluorescent pH dyes can be used as the reporter molecules. In another example where the protein associated with a signaling biochemical pathway is an ion channel, fluctuations in membrane potential and/or intracellular ion concentration can be monitored. A number of commercial kits and high-throughput devices are suited for a rapid and robust screening for modulators of ion channels. Representative instruments include FLIPR™ (Molecular Devices, Inc.) and VIPR (Aurora Biosciences). These instruments are capable of detecting reactions in over 1000 sample wells of a microplate simultaneously, and providing real-time measurement and functional data within a second or even a millisecond.

In practicing any of the methods disclosed herein, a suitable vector can be introduced to a cell, tissue, organism, or an embryo via one or more methods known in the art, including without limitation, microinjection, electroporation, sonoporation, biolistics, calcium phosphate-mediated transfection, cationic transfection, liposome transfection, dendrimer transfection, heat shock transfection, nucleofection transfection, magnetofection, lipofection, impalefection, optical transfection, proprietary agent-enhanced uptake of nucleic acids, and delivery via liposomes, immunoliposomes, virosomes, or artificial virions. In some methods, the vector is introduced into an embryo by microinjection. The vector or vectors may be microinjected into the nucleus or the cytoplasm of the embryo. In some methods, the vector or vectors may be introduced into a cell by nucleofection.

A target polynucleotide of a targetable nuclease complex can be any polynucleotide endogenous or exogenous to the host cell. For example, the target polynucleotide can be a polynucleotide residing in the nucleus of the eukaryotic cell, the genome of a prokaryotic cell, or an extrachromosomal vector of a host cell. The target polynucleotide can be a sequence coding a gene product (e.g. a protein) or a non-coding sequence (e.g., a regulatory polynucleotide or a junk DNA).

Some embodiments disclosed herein relate to use of an engineered nucleic acid guided nuclease system disclosed herein; for example, in order to target and knock out genes, amplify genes and/or repair certain mutations associated with DNA repeat instability and a medical disorder. This nuclease system may be used to harness and to correct these defects of genomic instability. In other embodiments, engineered nucleic acid guided nuclease systems disclosed herein can be used for correcting defects in the genes associated with Lafora disease. Lafora disease is an autosomal recessive condition which is characterized by progressive myoclonus epilepsy which may start as epileptic seizures in adolescence. This condition causes seizures, muscle spasms, difficulty walking, dementia, and eventually death.

In yet another aspect of the invention, the engineered/novel nucleic acid guided nuclease system can be used to correct genetic-eye disorders that arise from several genetic mutations

Several other embodiments of the invention relate to correcting defects associated with a wide range of genetic diseases which are further described on the website of the National Institutes of Health under the topic subsection Genetic Disorders. Certain genetic disorders of the brain can include, but are not limited to, Adrenoleukodystrophy, Agenesis of the Corpus Callosum, Aicardi Syndrome, Alpers' Disease, glioblastoma, Alzheimer's, Barth Syndrome, Batten Disease, CADASIL, Cerebellar Degeneration, Fabry's Disease, Gerstmann-Straussler-Scheinker Disease, Huntington's Disease and other Triplet Repeat Disorders, Leigh's Disease, Lesch-Nyhan Syndrome, Menkes Disease, Mitochondrial Myopathies and NINDS Colpocephaly or other brain disorder contributed to by genetically-linked causationln some embodiments, a genetically-linked disorder can be a neoplasia. In some embodiments, where the condition is neoplasia, targeted genes can include one or more genes listed above. In some embodiments, a health condition contemplated herein can be Age-related Macular Degeneration or a Schizophrenic-related Disorder. In other embodiments, the condition may be a Trinucleotide Repeat disorder or Fragile X Syndrome. In other embodiments, the condition may be a Secretase-related disorder. In some embodiments, the condition may be a Prion-related disorder. In some embodiments, the condition may be ALS. In some embodiments, the condition may be a drug addiction related to prescription or illegal substances. In accordance with these embodiments, addiction-related proteins may include ABAT for example

In some embodiments, the condition may be Autism. In some embodiments, the health condition may be an inflammatory-related condition, for example, over-expression of a pro-inflammatory cytokine. Other inflammatory condition-related proteins can include one or more of monocyte chemoattractant protein-1 (MCP1) encoded by the Ccr2 gene, the C C chemokine receptor type 5 (CCRS) encoded by the Ccr5 gene, the IgG receptor IIB (FCGR2b, also termed CD32) encoded by the Fcgr2b gene, or the Fc epsilon Rlg (FCER1g) protein encoded by the Fcerlg gene, or other protein having a genetic-link to these conditions. In some embodiments, the condition may be Parkinson's Disease. In accordance with these embodiments, proteins associated with Parkinson's disease can include, but are not limited to, a-synuclein, DJ-1, LRRK2, PINK1, Parkin, UCHL1, Synphilin-1, and NURR1.

Cardiovascular-associated proteins that contribute to a cardiac disorder, can include, but are not limited to, IL1b (interleukin 1-beta), XDH (xanthine dehy-drogenase), TP53 (tumor protein p53), PTGIS (prostaglandin 12 (prostacyclin) synthase), MB (myoglobin), IL4 (interleu-kin 4), ANGPT1 (angiopoietin 1), ABCG8 (ATP-binding cassette, sub-family G (WHITE), member 8), or CTSK (cathepsin K), or other known contributors to these conditions.

In some embodiments, the condition can be Alzheimer's disease. In accordance with these embodiments, Alzheimer's disease associated proteins can include very low density lipoprotein receptor protein (VLDLR) encoded by the VLDLR gene, ubiquitin-like modifier activating enzyme 1 (UBA1) encoded by the UBA1 gene, or for example, NEDD8-activating enzyme El catalytic subunit protein (UBE1C) encoded by the UBA3 gene or other genetically-related contributor.

In some embodiments, the condition can be an Autism Spectrum Disorder. In accordance with these embodiments, proteins associated Autism Spectrum Disorders can include the benzodiazapine receptor (peripheral) associated protein 1 (BZRAP1) encoded by the BZRAP1 gene, the AF4/FMR2 family member 2 protein (AFF2) encoded by the AFF2 gene (also termed MFR2), the fragile X mental retardation autosomal homolog 1 protein (FXR1) encoded by the FXR1 gene, or the fragile X mental retardation autosomal homolog 2 protein (FXR2) encoded by the FXR2 gene, or other genetically-related contributor.

In some embodiments, the condition can be Macular Degeneration. In accordance with these embodiments, proteins associated with Macular Degeneration can include, but are not limited to, the ATP-binding cassette, sub-family A (ABC1) member 4 protein (ABCA4) encoded by the ABCR gene, the apolipoprotein E protein (APOE) encoded by the APOE gene, or the chemokine (CC motif) Llg and 2 protein (CCL2) encoded by the CCL2 gene, or other genetically-related contributor.

In some embodiments, the condition can be Schizophrenia. In accordance with these embodiments, proteins associated with Schizophrenia In accordance with these embodiments, proteins associated with Schizophrenia y include NRG1, ErbB4, CPLX1, TPH1, TPH2, NRXN1, GSK3A, BDNF, DISCI, GSK3B, and combinations thereof.

In some embodiments, the condition can be tumor suppression. In accordance with these embodiments, proteins associated with tumor suppression can include ATM (ataxia telangiectasia mutated), ATR (ataxia telangiectasia and Rad3 related), EGFR (epidermal growth factor receptor), ERBB2 (v-erb-b2 erythroblastic leukemia viral oncogene homolog 2), ERBB3 (v-erb-b2 erythroblastic leukemia viral oncogene homolog 3), ERBB4 (v-erb-b2 erythroblastic leukemia viral oncogene homolog 4), Notch 1, Notch2, Notch 3, or Notch 4 or other genetically-related contributor.

In some embodiments, the condition can be a secretase disorder. In accordance with these embodiments, proteins associated with a secretase disorder can include PSENEN (presenilin enhancer 2 homolog (C. elegans)), CTSB (cathepsin B), PSEN1 (presenilin 1), APP (amyloid beta (A4) precursor protein), APH1B (anterior pharynx defective 1 homolog B (C. elegans)), PSEN2 (presenilin 2 (Alzheimer disease 4)), or BACE1 (beta-site APP-cleaving enzyme 1), or other genetically-related contributor.

In some embodiments, the condition may be Amyotrophic Lateral Sclerosis. In accordance with these embodiments, proteins associated with can include SOD1 (superoxide dismutase 1), ALS2 (amyotrophic lateral sclerosis 2), FUS (fused in sarcoma), TARDBP (TAR DNA binding protein), VAGFA (vascular endothelial growth factor A), VAGFB (vascular endothelial growth factor B), and VAGFC (vascular endothelial growth factor C), and any combination thereof or other genetically-related contributor.

In some embodiments, the condition can be a prion disease disorder. In accordance with these embodiments, proteins associated with a prion diseases disorder can include SOD1 (superoxide dismutase 1), ALS2 (amyotrophic lateral sclerosis 2), FUS (fused in sarcoma), TARDBP (TAR DNA binding protein), VAGFA (vascular endothelial growth factor A), VAGFB (vascular endothelial growth factor B), and VAGFC (vascular endothelial growth factor C), and any combination thereof or other genetically-related contributor. Examples of proteins related to neurodegenerative conditions in prion disorders can include A2M (Alpha-2-Macro-globulin), AATF (Apoptosis antagonizing transcription factor), ACPP (Acid phosphatase prostate), ACTA2 (Actin alpha 2 smooth muscle aorta), ADAM22 (ADAM metallopeptidase domain), ADORA3 (Adenosine A3 receptor), or ADRA1D (Alpha-1D adrenergic receptor for Alpha-1D adrenoreceptor), or other genetically-related contributor.

In some embodiments, the condition can be an immunodeficiency disorder. In accordance with these embodiments, proteins associated with an immunodeficiency disorder can include A2M [alpha-2-macroglobulin]; AANAT [aryla-lkylamine N-acetyltransferase]; ABCA1 [ATP-binding cassette, sub-family A (ABC1), member 1]; ABCA2 [ATP-binding cassette, sub-family A (ABC1), member 2]; or ABCA3 [ATP-binding cassette, sub-family A (ABC 1), member 3]; or other genetically-related contributor.

In some embodiments, the condition can be an immunodeficiency disorder. In accordance with these embodiments, proteins associated with an immunodeficiency disorder can include Trinucleotide Repeat Disorders include AR (androgen receptor), FMR1 (fragile X mental retardation 1), HTT (huntingtin), or DMPK (dystro-phia myotonica-protein kinase), FXN (frataxin), ATXN2 (ataxin 2), or other genetically-related contributor.

In some embodiments, the condition can be a Neurotransmission Disorders. In accordance with these embodiments, proteins associated with a Neurotransmission Disorders can include SST (somatostatin), NOS1 (nitric oxide synthase 1 (neuronal)), ADRA2A (adrenergic, alpha-2A-, receptor), ADRA2C (adrenergic, alpha-2C-, receptor), TACR1 (tachykinin receptor 1), or HTR2c (5-hydrox-ytryptamine (serotonin) receptor 2C), or other genetically-related contributor. In other embodiments, neurodevelopmental-associated sequences can include, but are not limited to, A2BP1 [ataxin 2-binding protein 1], AADAT [aminoadipate aminotransferase], AANAT [arylalkylamine N-acetyltransferase], ABAT [4-aminobutyrate aminotrans-ABCA1 [ATP-binding cassette, sub-family A (ABC1), member 1], or ABCA13 [ATP-binding cassette, sub-family A (ABC1), member 13], or other genetically-related contributor.

In yet other embodiments, genetic health conditions can include, but are not limited to Aicardi-Goutieres Syndrome; Alexander Disease; Allan-Herndon-Dudley Syndrome; POLG-Related Disorders; Alpha-Mannosidosis (Type II and III); Alstrom Syndrome; Angelman; Syndrome; Ataxia-Telangiectasia; Neuronal Ceroid-Lipofuscinoses; Beta-Thalassemia; Bilateral Optic Atrophy and (Infantile) 3 Optic Atrophy Type 1; Retinoblastoma (bilateral); Canavan Disease; Cerebrooculofacioskeletal Syndrome 1 [COFS1]; Cerebrotendinous Xanthomatosis; Cornelia de Lange Syndrome; MAPT-Related Disorders; Genetic Prion Diseases; Dravet Syndrome; Early-Onset Familial Alzheimer Disease; 4 Friedreich Ataxia [FRDA]; Fryns Syndrome; Fucosidosis; Fukuyama Congenital Muscular Dystrophy; Galactosialido-sis; Gaucher Disease; Organic Acidemias; Hemophagocytic Lymphohistiocytosis; Hutchinson-Gilford Progeria Syndrome; Mucolipidosis II; Infantile Free Sialic Acid Storage 4 Disease; PLA2G6-Associated Neurodegeneration; Jervell and Lange-Nielsen Syndrome; Junctional Epidermolysis Bullosa; Huntington Disease; Krabbe Disease (Infantile); Mitochondrial DNA-Associated Leigh Syndrome and NARP; Lesch-Nyhan Syndrome; LIST-Associated Lissen-5 cephaly; Lowe Syndrome; Maple Syrup Urine Disease; MECP2 Duplication Syndrome; ATP7A-Related Copper Transport Disorders; LAMA2-Related Muscular Dystrophy; Arylsulfatase A Deficiency; Mucopolysaccharidosis Types I, II or III; Peroxisome Biogenesis Disorders, Zellweger Syndrome Spectrum; Neurodegeneration with Brain Iron Accumulation Disorders; Acid Sphingomyelinase Deficiency; Niemann-Pick Disease Type C; Glycine Encephalopathy; ARX-Related Disorders; Urea Cycle Disorders; COL1A1/2-Related Osteogenesis Imperfecta; Mitochondrial DNA Deletion Syndromes; PLP1-Related Disorders; Perry Syndrome; Phelan-McDermid Syndrome; Glycogen Storage Disease Type II (Pompe Disease) (Infantile); MAPT-Related Disorders; MECP2-Related Disorders; Rhizomelic Chondrodys-plasia Punctata Type 1; Roberts Syndrome; Sandhoff Disease; Schindler Disease Type 1; Adenosine Deaminase Deficiency; Smith-Lemli-Opitz Syndrome; Spinal Muscular Atrophy; Infantile-Onset Spinocerebellar Ataxia; Hex-osaminidase A Deficiency; Thanatophoric Dysplasia Type 1; Collagen Type VI-Related Disorders; Usher Syndrome Type I; Congenital Muscular Dystrophy; Wolf-Hirschhorn Syndrome; Lysosomal Acid Lipase Deficiency; and Xeroderma Pigmentosum.

In other embodiments, genetic disorders in animals targeted by editing systems disclosed herein can include, but are not limited to, Hip Dysplasia, Urinary Bladder conditions, epilepsy, cardiac disorders, Degenerative Myelopathy, Brachycephalic Syndrome, Glycogen Branching Enzyme Deficiency (GBED), Hereditary Equine Regional Dermal Asthenia (HERDA), Hyperkalemic Periodic Paralysis Disease (HYPP), Malignant Hyperthermia (MH), Polysaccharide Storage Myopathy—Type 1 (PSSM1), junctional epdiermolysis bullosa, cerebellar abiotrophy, lavender foal syndrome, fatal familial insomnia, or other animal-related genetic disorder.

In some embodiments of the invention, nuclease and/or gRNA sequences can include sequences having homologous substitution (for example, substitution and replacement are both used herein to mean the interchange of an existing amino acid residue or nucleotide, with an alternative residue or nucleotide) that may occur in the case of amino acids such as basic for basic, acidic for acidic, polar for polar, etc. Non-homologous substitutions are also contemplated; for example, from one class of residue to another or alternatively involving the inclusion of non-naturally occurring amino acids such as ornithine (hereinafter referred to as Z), diamin-obutyric acid ornithine (hereinafter referred to as B), nor-leucine ornithine (hereinafter referred to as 0), pyridylala-nine, thienylalanine, naphthylalanine and phenylglycine.

In certain embodiments disclosed herein engineered nucleic acid guided nuclease constructs can recognize a protospacer adjacent motif (PAM) sequence other than TTTN or in addition to TTTN. In otBher embodiments, engineered nucleic acid guided nuclease constructs disclosed herein can be further mutated to improve targeting efficiency or can be selected from a library for certain targeted features.

Other embodiments disclosed herein concern vectors including constructs disclosed herein of use for further analysis and to select for improved genome editing features.

Other embodiments disclosed herein include kits for packaging and transporting nucleic acid guided nuclease constructs and/or novel gRNAs disclosed herein or known gRNAs disclosed herein and further include at least one container. In certain embodiments, several reagents required for the kits can be included for convenience and ease of transport and efficiency

In certain embodiments, provided herein is a method of creating a strand break at or near a target sequence in a target polynucleotide comprising contacting the target sequence with a targetable nucleic acid-guided nuclease complex, such as an engineered targetable nucleic acid-guided nuclease complex, e.g, an RNP, as disclosed herein, wherein the compatible guide nucleic acid of the complex targets the target sequence, and allowing the targetable guide nucleic acid-guided nuclease complex to create the strand break. The target polynucleotide can be any suitable target polynucleotide, such as a target polynucleotide in a cellular genome. The target polynucleotide can be a safe harbor site. The method can further include providing an editing template to be inserted in the target sequence. The editing template can comprise any suitable sequence that is desired to be inserted at the break; in certain embodiments the editing template comprises a transgene. In certain embodiments, provided herein is a cell created by the method, or an organism created by the method.

In certain embodiments, the invention provides methods comprising delivering one or more polynucleotides, such as or one or more vectors or linear polynucleotides as described herein, one or more transcripts thereof, and/or one or proteins transcribed therefrom, to a host cell. In some aspects, the invention further provides cells produced by such methods, and organisms comprising or produced from such cells. In some embodiments, an engineered nuclease in combination with (and optionally complexed with) a guide nucleic acid is delivered to a cell.

Certain embodiments provide a method for modifying a target polynucleotide by integrating an editing template, a double stranded break is introduced into a genome sequence by an engineered nuclease complex, the break can be repaired via homologous recombination using an editing template such that the template is integrated into the target polynucleotide. The presence of a double-stranded break can increase the efficiency of integration of the editing template.

Additional objects, advantages, and novel features of this disclosure will become apparent to those skilled in the art upon review of the following examples in light of this disclosure.

Appendix A comprising sequence listings is appended hereto and constitutes part of this application

The following examples are not intended to be limiting.

IV. EXAMPLES

The following examples are included to demonstrate preferred embodiments of the disclosure. It should be appreciated by those of skill in the art that the techniques disclosed in the examples that follow represent techniques discovered by the inventors to function well in the practice of the present disclosure, and thus can be considered to constitute preferred modes for its practice. However, those of skill in the art should, in light of the present disclosure, appreciate that many changes can be made in the specific embodiments which are disclosed and still obtain a like or similar result without departing from the spirit and scope of the present disclosure. Example 1

In one exemplary method, selection criteria were set to identify sequences with <60% AA sequence similarity to Cas12a, <60% AA sequence similarity to a positive control nuclease, and >80% query cover. After some screening rounds, 35 nucleases were identified and referenced herein as ART1-35 for further study. The survey overview is provided in Table 2.

TABLE 2 ART Nucleases Identified in Screening % AA to SEQ ID NO SEQ ID NO % AA to positive corresponding corresponding Cpf1 control ART Protein to Amino Acid to nucleic (<80% (<60% Name Reference Number sequences acid sequence desired) desired) ART1 WP_118425113.1 143 1 30.838 32.54 ART2 WP_137013028.1 144 5 34.189 33.07 ART3 WP_073043853.1 145 11 35.982 36.72 ART4 WP_118734405.1 146 15 30.519 51.64 ART5 WP_146683785.1 147 19 30.114 32.31 ART6 WP_117882263.1 148 23 29.421 33.49 ART7 OYP43732.1 149 27 26.323 28.64 ART8 TSC78600.1 150 31 25.379 23.01 ART9 WP_094390816.1 151 35 26.323 28.62 ART10 WP_104505765.1 152 39 31.291 32.59 ART11 WP_151622887.1 153 43 30.654 35.55 ART12 HAW84277.1 154 47 34.872 31.33 ART13 WP_119227726.1 155 51 34.993 31.55 ART14 WP_118080156.1 156 55 32.551 35.33 ART15 WP_046700744.1 157 59 31.456 33.92 ART16 WP_115247861.1 158 63 31.136 34.25 ART17 WP_062499108.1 159 67 31.136 34.17 ART18 WP_154326953.1 160 71 31.113 33.28 ART19 WP_117747221.1 161 75 30.764 32.47 ART20 WP_118211091.1 162 79 30.986 32.29 ART21 WP_118163031.1 163 83 31.134 32.54 ART22 WP_115006085.1 164 87 30.044 31.55 ART23 HCS95801.1 165 91 30.37 51.64 ART24 WP_089541090.1 166 95 30.933 33.11 ART25 WP_120123115.1 167 99 29.978 48.88 ART26 WP_117874294.1 168 103 29.904 48.49 ART27 WP_117951432.1 169 107 29.421 33.03 ART28 WP_108977930.1 170 111 32.099 32.69 ART29 WP_117886476.1 171 115 29.643 33.41 ART30 WP_101070975.1 172 119 29.027 32.95 ART31 WP_117949317.1 173 123 29.198 33.18 ART32 WP_118128310.1 174 127 29.198 33.18 ART33 WP_138157649.1 175 131 27.273 29.89 ART34 WP_135764749.1 176 135 27.004 25 ART35 OYP46450.1 177 139 26.709 29.51 *nucleic acid sequences correspond to ARTs that have not been optimized using methods as described examples herein

Example 2

In some methods, codon optimization, as described in Example 8, can lower nucleotide sequence similarity in most cases; however, it does not change the amino acid sequence of the protein. Further engineering was applied to sequences to improve the activity of the nucleases outside their native context. The native sequences of the 35 ART nucleases were engineered to include glycine, 6× Histidine, and 3× nuclear localization signal tags.

These Gly-6×His tag were applied for several reasons including: 1) a 6×His tag can be used in protein purification to allow binding to the chromatographic columns for purification, and 2) the N-terminal glycine allows further, site-specific, chemical modifications that permit advanced protein engineering. Further, the Gly-6×His was designed for easy removal, if desired, by digestion with Tobacco Etch Virus (TEV) protease. For these constructs, the Gly-6×His tag was positioned on the N-terminus. Gly-6×His tags are further described in Martos-Maldonado et al., Nat Commun. (2018) 17; 9(1):3307, the disclosure of which is incorporated herein.

The NLS (Nuclear Localization Signal) fragments were added to improve transport to the nucleus. NLS fragments used in these examples were successfully added to Cas9 constructs, as previously described in Perli et al., Science. (2016) 353(6304); Ménoret et al., Sci Rep. (2015) 5:14410; and EnGen® Spy Cas9 NLS product information from New England Biolabs (NEB), the disclosures of which are incorporated herein in their entirety.

Example 3

In another exemplary method, it is understood that a CRISPR-Cas genome editing system requires, in certain embodiments, at least 2 components: a guide RNA (gRNA) and CRISPR-associated (Cas) nuclease. Guide RNA is a specific RNA sequence that recognizes the targeted DNA region of interest and directs the Cas nuclease to this region for editing. gRNA can comprise two parts: a guide sequence, a 17-29 or longer nucleotide sequence complementary to the target DNA, and a scaffold sequence, which serves as a binding scaffold for the Cas nuclease in order to facilitate editing. In one method, conserved sequences of the gRNAs for nucleases ART1-35 were found by searching 5000 bp upstream of the start codon for each of ART1-ART35 and 1000 bp downstream of the stop codon, and standard methods were used to determine conserved sequences of putative gRNA-coding segments. The conserved DNA sequences for each of ART1-ART35 are provided in Table 3 in the application; these sequences code for conserved portions of gRNA for the respective nuclease, and RNA sequences can be created from these sequences (Conserved RNA sequences in Table 3); in addition, some or all of the RNA sequences may undergo further processing to remove one or more nucleotides from either end, as is known in the art and described elsewhere herein.

Example 4

In another exemplary method, cleavage efficiency of ART nucleases was tested in vivo. Cleavage efficiency of ART nucleases was tested in vivo in Escherichia coli (E. coli). In these methods, the assay is based on in vivo depletion assay in E. coli. First, a glycerol stock of E. coli MG1655 harboring a plasmid that expresses the ART nuclease was removed from −80° C. freezer and take 20 μL cells into 2 of 4 mL LB (Luria-Bertani broth) medium with 34 μg/mL chloramphenicol in 15 mL tubes. The cells were cultured at 30° C. and 200 rpm for overnight. Then, 4 mL overnight culture was put into 200 mL LB medium with 34 μg/mL chloramphenicol into 2 of 1 L flasks The cells were cultured at 30° C. and 200 rpm until OD₆₀₀ reached 0.5-0.6. The flasks were put into a shaking water bath incubator at 42° C. and 200 rpm for 15 minutes. Then, the flasks were put in the ice with manually slow shaking and were kept in the ice for 15 minutes. After that, the cells were transferred from flasks to 50 mL tubes (4 tubes for 200 mL cells) and centrifuged at 8000 rpm and 4° C. for 5 minutes to remove supernatant. Then, 50 mL ice-cold 10% glycerol were added for 200 mL culture and the cells were resuspended. The resuspended cells were centrifuged at 8000 rpm and 4° C. for 5 minutes to remove supernatant and 2 mL ice-cold 10% glycerol was added. Cells were resuspended with pipette gently and divided into 50 μL of the competent cells. The mixtures was then aliquoted into 72 chilled 0.1 cm electroporation cuvettes (Bio-rad).

Plasmids containing the 24 gRNAs and one non-targeting control gRNA were diluted in the nuclease-free water to 25 ng/ul. gRNA_EC1 to gRNA_EC23 were targeted 18 target loci which are galK, 1pd, accA, cynT, cynS, adhE, oppA, fabl, ldhA, pntA, pta, accD, pheA, accB, accC, aroE, aroB, and aroK genes. 2 μL (50 ng) chilled plasmids were put into the electroporation cuvettes and the electroporation were done at 1800 V. Then, 950 μL LB medium were added into the cuvette and mixed, then the cells were taken out into a 96-deep well plate (Light labs). The 96-deep well plate with cells were put at 30° C. and 200 rpm for 2 hours.

Dilutions were made at 10{circumflex over ( )}0, 10{circumflex over ( )}1, and 10{circumflex over ( )}2 for the recovered cells after 2 hours of culture. Then, 10 μL of cells were put into 90 μL ddH₂O and mixed with pipette. After dilution, 8 μL of cells were taken from each dilution and placed by pipette onto a LB agar plate 34 μg/mL chloramphenicol and 100 μg/mL carbenicillin and allowed to dry without covers for several minutes. Then the covers were put back onto the plates and the plates were returned to culture at 30° C. for overnight. The next day, results were checked by counting the number of colonies.

The depletion assay results using ART1, ART2, ARTS, ART6, ARTS, ART9, ART10, ART11, and ART11_L679F (also referred to herein as ART11* or ART11 mutant) are provided in FIGS. 1-9 where the data depict percent cutting efficiency=1−(# of colonies plate with on-target gRNA/# of colonies on plate with non-target gRNA)*100%.

Example 5

In another exemplary method, editing efficiency of ART nucleases was tested in vivo in Escherichia coli (E. coli). In these methods, the assay was based on in vivo editing assay in E. coli. First, a glycerol stock of E. coli MG1655 harboring a plasmid that expressed the ART nuclease was removed from −80° C. freezer and 20 μL of the stock cells were removed and placed into 4 mL LB medium with 34 μg/mL chloramphenicol in one 15 mL tube. The cells were cultured at 30° C. and 200 rpm for overnight. Then, 1 mL of the overnight culture was put into 50 mL LB medium with 34 μg/mL chloramphenicol and 0.2% arabinose into a 500 mL flask. The cells were cultured at 30° C. and 200 rpm until OD₆₀₀ reached 0.5-0.6. The flasks were then put into a shaking water bath incubator at 42° C. and 200 rpm for 15 minutes. Then, the flasks were put in the ice with manual slow shaking and were kept in the ice for 15 minutes. After that, the cells were transferred from flasks to a 50 mL tube and centrifuged at 8000 rpm and 4° C. for 5 minutes to remove supernatant. Then, 25 mL ice-cold 10% glycerol were added for 50 mL culture and the cells were resuspend. The resuspended cells were centrifuged at 8000 rpm and 4° C. for 5 minutes to remove supernatant and 0.5 mL ice-cold 10% glycerol was added. Cells were resuspended with a pipette gently and then divided into 50 μL of the competent cells. The mixture was then divided into 9 chilled 0.1 cm electroporation cuvettes.

Plasmids containing 3 gRNAs were diluted in the nuclease-free water to 25 ng/ul. gRNA_EC1 to gRNA_EC3 were targeted the galK gene. 2 μL (50 ng) chilled gRNA plasmids and 2 μL (50 ng) ssDNA—used as DNA repair templates—were put into the electroporation cuvettes and the electroporation was done at 1800 V. Then, 950 μL LB media were added into the cuvette and mixed, then the cells were removed from the cuvette and placed into a 1.5 mL tube. The tubes with cells were put at 30° C. and 200 rpm for 2 hours.

After recovery, 5 μL of cells were plated onto a MacConkey agar plate with 34 μg/mL chloramphenicol, 100 μg/mL carbenicillin, and 1% Galactose by pipette and the cells were spread using sterile plating beads. After removing the plating beads, covers were put back to the plates and the plates were returned to culture at 30° C. for overnight. The next day, the editing efficiency was calculated using the following equation.

${{Editing}{efficiency}} = {\frac{{numbers}{of}{white}{colonies}}{{numbers}{of}{total}{colonies}} \times 100\%}$

Representative editing assay results using ART2 is provided in FIG. 10 and for ART11 in FIG. 11

Example 6

In another exemplary method, cleavage efficiency of ART nucleases can be tested in vivo in eukaryotic cells. In these methods, the assay is based on the in vivo DNA cleavage assay. Jurkat cells, an immortalized line of human T lymphocyte cells, are cultivated in RPMI 1640 media with 10% Fetal Bovine Serum (FBS) and split regularly before being harvested for the transfection. Two target loci, DNMT1 and TRAC43, are chosen in genomic Jurkat's DNA as targets. Nucleases ART2 and a control nuclease are diluted in the storage buffer (e.g. NaCl 300 mM, Na-phosphate 50 mM, EDTA 0.1 mM, DTT 1 mM, and glycerol 10%) to 20 mg/mL. Analogically, the gRNAs are diluted in the nuclease-free water to 100 μM. The RNA-protein complexes (RNPs) are prepared by mixing 1 μL nuclease solution and 1.5 μL gRNA solution. Complexes are formed in 96-well V-bottom plate during 10 minutes incubation at room temperature.

Cells are counted and their viability was estimated in the NucleoCounter NC-200. Harvested cells are resuspended in the transfection buffer (SF from SF Cell Line 96-well Nucleofector Kit, Lonza) at 100×10⁵ cells/mL concentration. 20 μL of that solution was added to the well with formed RNPs, mixed by pipetting, and transferred to 96-well Nucleocuvette plate (Lonza). Cells are electroporated. In some instances, preceding nucleoporations, two-component gRNAs (split gRNA; STAR) are mixed 1:1 by volume and annealed at 37° C. for 30 minutes to form a gRNA solution. Of note, STAR gRNA is split gRNA where the crRNA and tracr RNA are separate. ART2 mRNA and gRNA (either single or STAR) are co-delivered immediately after resuspension in the appropriate nucleoporation buffer (Lonza) and delivered via an optimized nucleoporator program (Lonza).

Following electroporation, 80 μL of fresh RPMI 1640 media with 10% FBS are added to the Nucleocuvette plate immediately after the electroporation. The solution is mixed and 50 μL was transferred to the 96-well flat-bottom cultivation plate with 150 μL of fresh media. Cells are cultivated for 72 hours before being harvested for DNA extraction. Cells are harvested by centrifugation 1000×g for 10 minutes and washed with buffer (PBS). The supernatant is carefully removed, and the cell pellet is treated with 20 μL preheated QuickExtract DNA Extraction Solution (Lucigen). The plate is placed in the thermocycler (Biorad) and the temperature treatment (e.g. 15 min at 65° C., 15 min at 68° C., 10 min at 95° C., cold down to 4° C.) is applied. Cell debris is harvested by centrifugation, and the supernatant containing genomic DNA is collected. DNA fragments containing target sites are amplified in the PCR reaction and DNA is prepared for sequencing. Illumina-compatible adapter sequences and index sequences for sample identification are added to the target site PCR products during a second round of PCR. The second round PCR products are pooled and loaded onto an Illumina MiSeq sequencing instrument for 2×150 paired-end sequencing. Editing frequency was determined using the Crispresso2 analysis package.

Example 7

In another exemplary method, an ART nuclease RNP was introduced in a mammalian cell for gene editing.

1.1 Cells and culturing

Jurkat, clone E6-1, acute T cell leukemia cells were purchased (ATCC) and cultured in RPMI-1640 (Thermo Fisher) supplemented with 10% fetal bovine serum (FBS, Thermo Fisher) according to manufacturer's instructions. All cell cultures were grown and maintained in a water-humidified incubator containing 5% CO₂ at, 37° C. (Heracell VIOS 160i, Thermo Fisher).

1.2. Introduction of ART11 RNP in a Mammalian Cell for Gene Editing

Ribonucleoproteins (RNPs) were produced by complexing of a single gRNA with ART11 nuclease. Single gRNAs were synthesized (IDT) and recombinant ART11 was produced and purified (Aldevron). Recombinant ART11 nuclease was stored in a 25 mM Tris-HCl pH 7.4, 300 mM NaCl, 0.1 mM EDTA. 1 mM DTT, and 50% (v/v) glycerol buffer at −80° C. prior to use. Single gRNAs were resuspended in IDTE pH 7.5 buffer (IDT) to produce a 100 μM stock and stored at −80° C. prior to use. ART11 nuclease and gRNA were mixed at room temperature for 10 minutes to form RNPs. Following complexing, RNPs were resuspended in the appropriate nucleoporation buffer (eg SF buffer, Lonza) and delivered via an optimized nucleoporator program. (eg CA-137, Lonza) to the mammalian cells.

1.3 Harvesting of DNA for Amplicon Sequencing

Cells were cultured for 48 hours prior to being harvested for DNA extraction. Cells were harvested via centrifugation (200×g for 5 minutes) to pellet and washed with buffer (PBS). After carefully removing the supernatant, the cell pellet was treated with 20 μL of QuickExtract DNA Extraction solution (Lucigen). The samples were placed in a thermalcycler and a temperature treatment was applied (eg 15 min at 65° C., 15 min at 68° C., 10 min at 95° C., and a cool down to 4 C). DNA fragments containing target sites were amplified in a PCR reaction and DNA was prepared for sequencing. Illumina-compatible adapter sequences and index sequences for sample identification are added to the target site PCR products during a second round of PCR. The second round PCR products are pooled and loaded onto an Illumina MiSeq sequencing instrument for 2×150 paired-end sequencing. Editing frequency was determined using the Crispresso2 analysis package. Results are shown in FIG. 14

Example 8

In another exemplary method, codon optimization for non-naturally occurring nucleic acid sequences disclosed herein used the Codon Optimization Tool (Integrated DNA technologies). In this method, an organism was chosen to express the nuclease in for a wide range of applications, such as bacteria (e.g., Escherichia coli K12), yeast (e.g., Saccharomyces cerevisiae), or multi cell eukaryotes (e.g. Homo sapiens (human)) from the column “Organism”. Then the DNA bases or Amino acids sequences were loaded into the blank box of the Codon Optimization Tool. Then the sequences were optimized. The generated DNA sequences are codon optimized for bacteria (e.g., Escherichia coli K12), yeast (e.g., Saccharomyces cerevisiae), or multi cell eukaryotes (e.g. Homo sapiens (human)).

Examples of non-naturally occurring nucleic acid sequences which are disclosed herein include ART2 sequences codon optimized for expression in bacteria, such as Escherichia cab (e.g., SEQ ID NO: 6), sequences codon optimized for expression in yeast, such as Saccharomyces cerevisiae (e.g., SEQ ID NO: 7), sequences codon optimized for expression in multi cell eukaryotes, such as Homo sapiens (human) SEQ ID NO: 8). Such non-naturally occurring nucleic acid sequences were amplified, cloned, assembled, synthesized, generated from synthesized oligonucleotides or dNTPs, or otherwise obtained using methods known by those skilled in the art. Codon optimized nucleases have been used to edit cell lines by expression from a plasmid in the cell line or were expressed at high levels m a protein production cell line and subsequently purified for editing by RNP.

Example 9

In another exemplary method, more than one ART nuclease RNP is introduced in a mammalian cell for gene editing. Ribonucleoproteins (RNPs) are produced by complexing of a single gRNA or STAR gRNA with each ART nuclease and the mixture of multiple ART nuclease RNP's is used for transfectons. Similar to Example 6, single or STAR gRNAs is synthesized and recombinant ART is produced and purified. Recombinant ART nuclease is then stored in a 25 mM Tris-HCl pH 7.4, 300 mM NaCl, 0.1 mM EDTA, 1 mM DTT, and 50% (v/v) glycerol buffer at −80° C. prior to use. Single or STAR gRNAs are resuspended in IDTE buffer (10 mM Tris, 0.1 mM EDTA) pH 7.5 buffer to produce a 100 μM stock and stored at −80° C. prior to use. Just before nucleoporation, recombinant ART are diluted in a working buffer consisting of 20 mM HEPES and 150 mM KCl pH 7.5 and gRNAs are be diluted to a final working concentration with IDTE pH 7.5 buffer (annealed first if STAR, see section 1.4). Following dilutions of the ART nuclease and gRNA, both are be mixed 1:1 by volume (2:1 gRNA to nuclease ratio) at 37° C. for 10 minutes to form RNPs. Following complexing, RNPs are resuspended in the appropriate nucleoporation buffer (Lonza) and delivered via an optimized nucleoporator program (Lonza).

Example 10

In another exemplary method, an ART nuclease is combined with more than one gRNA to construct a multiplex, multitarget RNP and is introduced in a mammalian cell for gene editing. Ribonucleoproteins (RNPs) are produced by complexing of more than one either single or STAR gRNA's that target different sites within the genome with a single ART nuclease or more than one ART nucleases. Similar to Example 6, single or STAR gRNAs are synthesized and recombinant ART is produced and purified. Recombinant ART nuclease is then stored in a 25 mM Tris-HCl pH 7.4, 300 mM NaCl, 0.1 mM EDTA, 1 mM DTT, and 50% (v/v) glycerol buffer at −80° C. prior to use. Single or STAR gRNAs are resuspended in IDTE buffer (10 mM Tris, 0.1 mM EDTA) pH 7.5 buffer to produce a 100 μM stock and stored at −80° C. prior to use. Just before nucleoporation, recombinant ART are diluted in a working buffer consisting of 20 mM HEPES and 150 mM KCl pH 7.5 and gRNAs are diluted to a final working concentration with IDTE pH 7.5 buffer (annealed first if STAR, see section 1.4). Following dilutions of the ART nuclease and gRNA, both are mixed 1:1 by volume (2:1 gRNA to nuclease ratio) at 37° C. for 10 minutes to form RNPs. Following complexing, RNPs are resuspended in the appropriate nucleoporation buffer (Lonza) and delivered via an optimized nucleoporator program (Lonza).

Example 11

In another exemplary method, an ART nuclease RNP is introduced in a mammalian cell for gene editing with a polynucleotide DNA repair template used for directed repair or editing of the target genome. Ribonucleoproteins (RNPs) are produced by complexing of a single or STAR gRNA with ART nuclease and a polynucleotide DNA repair template ranging in size from 20 bp to 20 kbp is added to the RNP. Similar to Example 6, single or STAR gRNAs are be synthesized and recombinant ART is produced and purified. Recombinant ART nuclease is then stored in a 25 mM Tris-HCl pH 7.4, 300 mM NaCl, 0.1 mM EDTA, 1 mM DTT, and 50% (v/v) glycerol buffer at −80° C. prior to use. The polynucleotide DNA template is synthesized either from a plasmid stock containing the source DNA material or is synthetic DNA material that has been synthesized commercially (IDT, Genewiz). The DNA template is either single stranded DNA (ssDNA) or double stranded DNA (dsDNA) and has homology arms flaking the insert or editing region proximal to the gRNA cut site. Single or STAR gRNAs are resuspended in IDTE buffer (10 mM Tris, 0.1 mM EDTA) pH 7.5 buffer to produce a 100 μM stock and stored at −80° C. prior to use. Just before nucleoporation, recombinant ART is diluted in a working buffer consisting of 20 mM HEPES and 150 mM KCl pH 7.5 and gRNAs are diluted to a final working concentration with IDTE pH 7.5 buffer (annealed first if STAR, see section 1.4). Following dilutions of the ART nuclease and gRNA, both are mixed 1:1 by volume (2:1 gRNA to nuclease ratio) and the DNA template is added at an optimized concentration at 37° C. for 10 minutes to form RNPs. Following complexing, RNPs are resuspended in the appropriate nucleoporation buffer (e.g. Lonza) and delivered via an optimized nucleoporator program (e.g. Lonza).

Example 12

In another exemplary method, an ART nuclease RNP is introduced in a mammalian cell for gene editing with a mixture of polynucleotide DNA repair templates used for directed repair or editing of the target genome in multiplex. Ribonucleoproteins (RNPs) are produced by complexing of a single or STAR gRNA with ART nuclease and a mixture of polynucleotide DNA repair templates ranging in size from 20 bp to 20kbp is added to the RNP. Similar to Example 6, single or STAR gRNAs are synthesized and recombinant ART is produced and purified. Recombinant ART nuclease is stored in a 25 mM Tris-HCl pH 7.4, 300 mM NaCl, 0.1 mM EDTA, 1 mM DTT, and 50% (v/v) glycerol buffer at −80° C. prior to use. The polynucleotide DNA template is synthesized either from a plasmid stock containing the source DNA material or is synthetic DNA material that has been synthesized commercially (IDT, Genewiz). The DNA template is either single stranded DNA (ssDNA) or double stranded DNA (dsDNA) and has homology arms flaking the insert or editing region proximal to the gRNA cut site. Single or STAR gRNAs are resuspended in IDTE buffer (10 mM Tris, 0.1 mM EDTA) pH 7.5 buffer to produce a 100 μM stock and stored at −80° C. prior to use. Just before nucleoporation, recombinant ART is diluted in a working buffer consisting of 20 mM HEPES and 150 mM KCl pH 7.5 and gRNAs are diluted to a final working concentration with IDTE pH 7.5 buffer (annealed first if STAR, see section 1.4). Following dilutions of the ART nuclease and gRNA, both are mixed 1:1 by volume (2:1 gRNA to nuclease ratio) and the DNA templates are added at an optimized concentration at 37° C. for 10 minutes to form RNPs. Following complexing, RNPs are resuspended in the appropriate nucleoporation buffer (e.g Lonza) and delivered via an optimized nucleoporator program (e.g. Lonza).

Example 13

In this Example, PAM sequences for representative nucleases disclosed herein were evaluated.

A glycerol stock of E. coli MG1655 harboring a plasmid that expresses the ART nuclease from −80° C. freezer, 100 μL of cell stock was used to inoculate 4 mL LB medium containing 34 mg/mL chloramphenicol in a 15 mL tube. Cells were cultured in a shaking incubator at 30° C. and 200 rpm overnight (12-16 h). After overnight growth, 1 mL overnight cell culture was added to a 250 mL flask containing 25 mL LB medium containing 34 mg/mL chloramphenicol. Cells were cultured in a shaking incubator at 30° C. and 200 rpm until OD₆₀₀ reached 0.5-0.6. The cells were transferred from flasks to 50 mL tubes and centrifuged at 8000 rpm and 4° C. for 5 minutes to remove supernatant. Then, 25 mL ice-cold 10% glycerol was added, and cells were resuspended. The resuspended cells were centrifuged at 8000 rpm and 4° C. for 5 minutes to remove supernatant and 2 mL ice-cold 10% glycerol was added. Cells were resuspended with pipette gently and divided into 50 μL aliquots of competent cells.

Prepare for electroporation by transferring 50 μL of prepared competent cells into 0.1 cm gap electroporation cuvettes on ice. Add 200 ng of the PAM plasmid library (carrying the on-target site with variable PAM sequences) to the electroporation cuvette and electroporate at 1800 V. Add 950 μL Super Optimal Broth (SOB) medium, mix gently and transfer the entire volume to a 1.5 mL tube. Incubate at 30° C. and 200 rpm for 2 hours. Transfer the cells from each tube to another 15 mL plastic tube containing 4 mL LB medium with 34 mg/mL chloramphenicol and 50 mg/mL kanamycin and incubate overnight. For each culture, add 1 mL of the overnight cell culture to a 250 mL flask containing 25 mL LB medium with 34 mg/mL chloramphenicol, incubate in a shaking incubator at 30° C. and 200 rpm until OD₆₀₀ reached 0.5-0.6. The flasks were put into a shaking water bath incubator at 42° C. and 200 rpm for 15 minutes. Then, the flasks were put in the ice with manually slow shaking and were kept in the ice for 15 minutes. The cells were transferred from flasks to 50 mL tubes and centrifuged at 8000 rpm and 4° C. for 5 minutes to remove supernatant. Then, 25 mL ice-cold 10% glycerol was added, and cells were resuspended. The resuspended cells were centrifuged at 8000 rpm and 4° C. for 5 minutes to remove supernatant and 2 mL ice-cold 10% glycerol was added. Cells were resuspended with pipette gently and divided into 50 μL aliquots of competent cells.

Prepare for a new round of electroporation by transferring 50 μL of prepared competent cells into 0.1 cm gap electroporation cuvettes on ice. Add 100 μg of one of a non-targeting control or on-targeting gRNA plasmid and electroporate at 1800 V. Add 950 μL SOP medium, mix gently and transfer the entire volume to a 1.5 mL tube. Incubate at 30° C. and 200 rpm for 2 hours. Plate an aliquot of recovered cells onto a LB agar plate containing 50 mg/mL kanamycin and 100 mg/mL Carbenicillin and incubate overnight at 30°. Harvest the cells and purify the plasmid. The plasmids are used as template DNA for a PCR reaction with primers miniseq_galKOFF_T225-F2 (TCGTCGGCAGCGTCAGATGTGTATAAGAGACAGcgtaccctggttggcagcgaatac) (SEQ ID NO: 326) and miniseq_galKOFF_T225-R2 (GTCTCGTGGGCTCGGAGATGTGTATAAGAGACAGacgcacgcgttttgccacgatc) (SEQ ID NO: 327). Illumina-compatible adapter sequences and index sequences for sample identification are added to the PCR products during a second round of PCR. The second round PCR products are pooled and loaded onto an Illumina MiSeq sequencing instrument for 2×150 paired-end sequencing.

The VSEARCH tool was used to align the NGS data to the reference PAM library template. The threshold was 0.9 for the alignment. The pandas program was used to filter the aligned data. The threshold was 100% for the data. The normalized reads for each PAM were calculated using the following formula, where PAM hits is the sum of PAM hits after running pandas and the Total hits is the total hits before running VSEARCH:

${{Normalized}{reads}} = {\frac{{PAM}{hits}}{{Total}{hits}} \times 100\%}$

The enrichment was calculated using the following formula, where Normalized ready means normalized reads for each PAM in the non-targeting control experiment and Normalized ready means normalized read for each PAM in the on-targeting gRNA experiment:

${Enrichment} = {\log 2\left( \frac{{Normalized}{read}_{y}}{{Normalized}{read}_{x}} \right.}$

Results for the top hits for PAM sites for ART11 are shown in FIG. 11 . Results for the top hits for PAM sites for ART11_L679F are shown in FIG. 13 Example 14

This Example describes site directed mutagenesis (SDM) to develop a mutant nuclease, ART11_L679F

Primer design for Site-Directed Mutagenesis (SDM)

Name Sequences SDM-ART11- AGCTTTACTTCTTTCAAATCTACAATAAAG F (SEQ ID NO: 328) SDM-ART11- CATCCTTTTCGACAAGAC R (SEQ ID NO: 329)

Exponential Amplification (PCR) Using NEB SDM Kit

-   -   a PCR amplication from ART11 using pSC-ART11

Name Amount (ul) Note Temperate (C.) Time Cycle SDM-ART11-F 1.25 10-fold 98 30 s 1 dilution SDM-ART11-R 1.25 98 10 s 25 pSC-ART11 1 10 ng/ul 58 30 s Q5 master mix 12.5 72 5 m ddH2O 9 72 2 m 1 4 1

-   -   b. Run 5 ul PCR products in 1% agarose Gel at 120v for 30 min

Kinase, Ligase & DpnI (KLD) Treatment

Assemble the following reagents:

VOLUME PCR Product 1 μl 2× KLD Reaction Buffer 5 μl 10× KLD Enzyme Mix 1 μl Nuclease-free Water 3 μl

Mix well by pipetting up and clown and incubate at room temperature for 30 minutes.

Transformation

-   -   1. Thaw a tube of NEB 5-alpha Competent E. coli cells on ice.     -   2. Add 5 μl of the KLD mix from Step II to the tube of thawed         cells. Carefully flick the tube 4-5 times to mix. Do not vortex.     -   3. Place the mixture on ice for 30 minutes.     -   4. Heat shock at 42° C. for 30 seconds.     -   5. Place on ice for 5 minutes.     -   6. Pipette 950 μI of room temperature SOC into the mixture.     -   7. Incubate at 30° C. for 2 hs with shaking (200 rpm).     -   8. Mix the cells thoroughly by flicking the tube and inverting,         then spread 10 and 100 μl onto a selection plate and incubate         overnight at 30° C.     -   9. Pick some colonies for sanger sequencing to find the         corrected plasmid.

Appendix A is incorporated herein by reference in its entirety for all purposes.

The foregoing discussion of the disclosure has been presented for purposes of illustration and description. The foregoing is not intended to limit the disclosure to the form or forms disclosed herein. Although the description of the disclosure has included description of one or more embodiments and certain variations and modifications, other variations and modifications are within the scope of the disclosure, e.g., as can be within the skill and knowledge of those in the art, after understanding the present disclosure. It is intended to obtain rights which include alternative embodiments to the extent permitted, including alternate, interchangeable and/or equivalent structures, functions, ranges or steps to those claimed, whether or not such alternate, interchangeable and/or equivalent structures, functions, ranges or steps are disclosed herein, and without intending to publicly dedicate any patentable subject matter.

While preferred embodiments of the present invention have been shown and described herein, it will be obvious to those skilled in the art that such embodiments are provided by way of example only. Numerous variations, changes, and substitutions will now occur to those skilled in the art without departing from the invention. It should be understood that various alternatives to the embodiments of the invention described herein may be employed in practicing the invention. It is intended that the following claims define the scope of the invention and that methods and structures within the scope of these claims and their equivalents be covered thereby.

APPENDIX A SEQUENCES SEQ ID NO: 1 ART1_WT ATGGAAACATTTTCTGGGTTTACAAATTTGTACCCTTTGTCAAAGACATTGCGGTTTAGATTGATTCCTGTAGGGG AAACATTGAAACATTTTATTGATAGTGGAATATTGGAAGAAGACCAGCATAGGGCTGAGAGTTATGTGAAGGTAAA GGCTATTATTGATGACTATCATAGAGCTTATATTGAGAATTCTTTATCAGGCTTTGAATTACCTTTGGAAAGTACA GGTAAATTCAATTCTTTGGAGGAATATTATTTGTATCATAATATTCGAAATAAAACGGAAGAAATTCAGAACTTGT CATCCAAGGTCAGAACTAATCTGAGGAAACAAGTCGTGGCTCAACTAACTAAGAACGAAATATTTAAAAGAATTGA TAAAAAAGAGCTGATTCAGAGTGATTTGATTGATTTTGTTAAAAATGAGCCTGATGCAAATGAGAAAATAGCACTA ATCTCAGAATTTCGTAATTTTACTGTATATTTCAAAGGTTTTCATGAAAACCGTAGAAATATGTATTCAGATGAAG AAAAGTCCACGTCTATAGCCTTTCGTCTGATTCATGAGAATCTTCCCAAGTTTATTGATAATATGGAAGTGTTTGC AAAAATACAGAATACTTCTATCTCGGAGAATTTTGATGCTATACAGAAAGAACTTTGCCCGGAGTTGGTAACCCTT TGTGAAATGTTTAAGTTGGGGTATTTTAATAAGACTTTAAGTCAGAAACAAATAGATGCTTATAATACTGTTATAG GTGGTAAAACCACATCAGAAGGTAAAAAGATTAAAGGTCTTAATGAATATATTAATCTTTATAACCAGCAGCATAA GCAAGAGAAATTACCCAAGATGAAGCTTCTTTTCAAGCAGATACTTAGTGATAGAGAAAGTGCGTCATGGCTGCCA GAGAAGTTTGAGAATGATAGTCAGGTTGTCGGTGCAATAGTGAATTTCTGGAATACTATTCATGATACAGTTCTTG CAGAAGGAGGGTTGAAAACGATTATTGCTTCATTGGGTAGTTATGGCCTTGAAGGTATTTTCCTAAAGAATGATTT GCAACTTACTGATATATCACAAAAGGCAACAGGTAGTTGGGGTAAAATATCTTCTGAGATAAAGCAAAAAATAGAG GTGATGAATCCTCAAAAGAAAAAAGAGTCTTATGAGACTTATCAAGAACGTATAGATAAGATATTCAAGTCTTATA AAAGTTTTTCTTTAGCTTTTATAAATGAGTGCCTTCGTGGTGAGTATAAGATTGAAGATTATTTTCTCAAGTTAGG GGCTGTGAATAGCAGTTCGTTACAGAAAGAAAATCATTTTTCGCATATTCTCAATACCTATACAGATGTGAAAGAG GTGATTGGCCTTTACTCTGAATCGACTGACACTAAATTAATACAAGATAATGATTCCATTCAAAAGATAAAACAGT TCCTTGACGCAGTTAAAGACTTACAGGCTTATGTAAAACCATTATTGGGTAATGGTGATGAAACCGGTAAAGATGA AAGATTTTATGGCGATTTGATTGAGTATTGGAGTTTGCTTGACTTGATTACTCCTTTATATAATATGGTTCGTAAT TATGTCACTCAGAAGCCGTATTCTGTAGATAAAATAAAAATAAATTTCCAGAATCCTACTTTATTGAATGGCTGGG ACCTTAATAAAGAAACGGATAATACATCTGTAATATTGCGTCGTGATGGCAAATATTATCTGGCCATAATGAATAA CAAATCCAGAAAAGTCTTTTTGAAATATCCATCAGGGACAGATAGAAATTGCTATGAGAAGATGGAGTATAAACTT TTACCAGGTGCTAATAAGATGCTACCTAAGGTCTTCTTTTCAAAATCAAGGATAAATGAATTCATGCCTAATGAGC GTTTGTTGTCAAATTATGAAAAGGGCACGCATAAAAAGTCGGGTACTTGTTTTAGTTTGGATGATTGTCATACTTT GATAGATTTCTTTAAGAAGTCTTTGGACAAACATGAGGATTGGAAAAACTTTGGCTTCAAGTTCTCTGATACTTCT ACATATGAAGATATGAGTGGTTTTTATAAAGAAGTAGAGAATCAAGGTTATAAATTATCCTTTAAGCCGATTGATG CTACGTATGTGGATCAGCTTGTTGATGAAGGTAAGATTTTTCTGTTTCAGATTTATAACAAGGATTTTTCTGAGCA TAGCAAAGGTACGCCTAATATGCATACCTTGTATTGGAAAATGTTGTTTGATGAAACAAATCTTGGGGATGTGGTG TATAAACTAAATGGTGAGGCTGAAGTCTTTTTCCGTAAGGCAAGTATAAATGTATCACATCCAACTCATCCGGCTA ACATACCCATAAAGAAAAAGAATCTTAAACATAAAGATGAAGAAAGAATTCTTAAATATGACTTGATTAAAGATAA GCGTTATACCGTCGACCAGTTCCAGTTTCATGTGCCAATAACCATGAATTTCAAGGCGGATGGAAATGGAAATATA AACCAGAAAGCGATAGACTATTTACGTTCGGCATCAGATACTCATATAATAGGGATTGACCGTGGTGAACGAAACT TGTTATATCTTGTAGTGATTGATGGAAATGGAAAAATCTGTGAGCAATTCTCTTTAAATGAAATAGAAGTTGAATA TAATGGTGAAAAGTATTCAACAAATTACCATGATTTGCTTAATGTCAAGGAGAATGAAAGAAAGCAGGCAAGACAG AGTTGGCAAAGTATAGCTAACATAAAAGACTTGAAAGAAGGCTATTTAAGTCAGGTTATTCATAAGATTTCTGAAT TGATGGTCAAATATAATGCGATTGTGGTGCTTGAGGATTTGAATGCTGGATTTATGCGTGGTCGACAAAAGGTTGA AAAGCAGGTTTATCAGAAATTTGAAAAGAAACTCATTGAGAAGTTAAATTATCTCGTATTCAAGAAACAGTCTTCT GATTTGCCTGGTGGGCTTATGCATGCTTATCAGTTAGCTAATAAATTTGAGAGTTTTAATACTTTAGGTAAACAAA GCGGATTTCTCTTTTATATCCCCGCCTGGAATACCAGTAAAATGGATCCGGTAACAGGTTTTGTAAATTTGTTTGA TGTGAAGTATGAAAGTGTTGATAAGGCAAAAAGCTTTTTCAGTAAGTTCGATTCTATAAGGTATAATGTGGAAAGA GATATGTTTGAATGGAAATTCAATTATGGTGAATTCACGAAAAAAGCCGAAGGAACTAAAACTGATTGGACTGTTT GTTCCTACGGTAATAGAATTATCACCTTTAGAAATCCGGATAAAAATTCTCAATGGGATAATAAAGAAATAAATCT TACCGAAAATATTAAGCTGCTGTTTGAAAGGTTTGGCATCGACTTATCTTCAAATCTGAAAGATGAGATAATGCAA CGTACAGAAAAAGAATTCTTTATCGAACTTATATCCCTATTTAAGCTTGTGCTACAGATGCGTAATAGTTGGACAG GTACTGATATAGATTATCTGGTATCACCTGTATGCAATGAAAACGGTGAATTTTTCGATAGCAGAAACGTAGATGA AACACTTCCGCAAAATGCGGACGCAAACGGAGCATATAACATTGCAAGAAAAGGAATGATACTTCTTGATAAGATT AAGAAAAGTAACGGTGAGAAGAAGCTTGCTCTATCTATAACTAATAGAGAATGGCTTTCATTTGCTCAAGGTTGTT GCAAAAATGGATGA SEQ ID NO: 2 ART1_Optimized_1 ATGGAGACATTCTCAGGGTTCACGAACCTGTACCCTCTGTCGAAGACCTTACGCTTCCGCCTGATTCCCGTCGGGG AGACGCTGAAACACTTCATCGACAGCGGCATCTTAGAAGAAGATCAGCATCGTGCAGAAAGCTATGTAAAAGTTAA GGCTATTATCGATGATTATCATCGTGCTTATATCGAGAACAGCTTGAGTGGCTTTGAGCTTCCTTTGGAATCCACA GGAAAATTTAATAGCTTGGAGGAATACTATTTGTATCACAATATCCGCAACAAGACCGAGGAAATTCAGAATTTAT CATCAAAAGTTCGTACGAATTTGCGTAAGCAAGTGGTAGCACAACTTACAAAGAACGAAATTTTTAAACGCATCGA CAAAAAAGAATTGATTCAATCAGATTTGATTGATTTCGTGAAGAATGAGCCGGATGCAAACGAAAAGATTGCATTA ATCTCGGAGTTTCGCAACTTTACTGTCTATTTTAAAGGCTTTCATGAGAACCGTCGCAATATGTATTCAGATGAGG AAAAAAGTACTAGTATTGCTTTTCGCTTGATTCACGAAAATCTGCCGAAGTTTATCGATAACATGGAGGTTTTTGC TAAGATTCAGAACACCTCCATCAGCGAGAATTTCGACGCGATTCAAAAAGAACTTTGTCCGGAATTAGTTACTTTA TGTGAGATGTTCAAGTTGGGTTATTTCAACAAGACGCTTTCGCAGAAACAGATCGACGCCTACAACACTGTAATTG GGGGAAAAACGACAAGTGAGGGTAAGAAAATTAAGGGTCTGAATGAATACATCAATTTGTACAACCAACAGCACAA GCAGGAGAAATTACCAAAAATGAAGTTGCTGTTCAAACAAATCCTGAGCGACCGCGAATCGGCTTCTTGGTTACCT GAGAAGTTTGAAAATGATTCCCAGGTGGTGGGGGCGATCGTCAATTTCTGGAACACAATTCACGACACCGTCTTGG CGGAGGGTGGGCTTAAGACCATCATCGCGAGTTTGGGCTCCTACGGGTTGGAGGGTATTTTCTTAAAGAACGATCT GCAGTTGACAGACATCAGTCAAAAGGCCACTGGAAGTTGGGGAAAGATTTCTTCAGAAATTAAGCAAAAGATTGAG GTGATGAACCCACAAAAGAAGAAAGAGTCATACGAAACCTATCAAGAACGCATTGATAAAATTTTCAAGTCGTACA AGAGCTTCAGCTTAGCTTTCATCAATGAGTGTTTACGCGGAGAGTACAAAATTGAAGATTATTTCCTGAAACTGGG AGCGGTCAACTCTAGTTCTCTGCAAAAAGAGAACCATTTCAGTCACATTTTAAATACCTACACTGACGTAAAGGAA GTTATCGGCTTGTACAGCGAATCTACTGACACCAAACTGATCCAGGATAATGATTCTATCCAAAAGATCAAACAAT TTTTGGATGCCGTAAAAGACTTACAAGCCTACGTGAAACCTCTTTTGGGAAATGGGGACGAGACGGGAAAGGACGA ACGTTTCTATGGTGACTTAATCGAGTACTGGAGCTTACTTGACTTAATCACCCCATTATATAACATGGTGCGTAAT TACGTCACTCAAAAGCCCTATTCCGTAGATAAGATTAAAATTAATTTCCAGAATCCTACTTTACTGAACGGTTGGG ATCTTAATAAAGAGACTGACAACACGTCGGTCATCTTACGTCGTGACGGTAAATATTATTTGGCTATTATGAATAA CAAATCTCGCAAGGTTTTTCTGAAGTACCCCTCTGGTACCGACCGTAACTGCTATGAGAAGATGGAGTACAAGCTT CTGCCGGGGGCCAACAAGATGCTTCCTAAAGTGTTTTTCTCCAAAAGTCGTATCAATGAGTTTATGCCTAATGAAC GTCTGCTTTCCAACTATGAAAAAGGAACCCATAAAAAAAGTGGTACATGCTTCTCGTTGGATGATTGCCACACCTT AATCGACTTTTTCAAAAAGTCGCTGGATAAACATGAAGACTGGAAAAATTTTGGGTTCAAATTTTCGGATACCAGT ACATATGAAGACATGAGCGGGTTCTATAAGGAAGTGGAGAATCAAGGGTATAAACTTAGTTTTAAACCTATCGATG CGACGTATGTCGACCAATTGGTAGATGAGGGTAAAATTTTCTTATTTCAGATCTATAATAAGGATTTTTCCGAACA TTCCAAGGGAACCCCAAATATGCACACGTTGTACTGGAAAATGTTGTTTGATGAAACTAATCTTGGTGATGTTGTG TATAAGTTGAATGGGGAAGCCGAAGTCTTCTTCCGCAAAGCTTCAATCAATGTTTCTCATCCTACTCACCCGGCCA ATATCCCTATCAAAAAGAAAAACCTGAAACACAAGGACGAGGAACGTATCTTAAAGTACGATTTAATTAAAGACAA ACGTTACACCGTAGACCAGTTTCAGTTTCATGTACCAATTACCATGAACTTTAAGGCAGACGGGAATGGCAATATC AACCAAAAAGCGATCGACTATCTTCGCTCTGCAAGCGATACTCACATTATTGGAATTGACCGCGGCGAGCGCAATC TGTTGTACCTGGTTGTGATTGATGGTAACGGAAAAATTTGCGAGCAATTCTCCTTAAACGAAATCGAGGTAGAATA TAACGGCGAAAAATATTCCACCAACTATCACGACCTTCTTAATGTGAAGGAGAACGAACGCAAACAGGCCCGTCAA TCGTGGCAGTCTATTGCAAATATCAAAGACCTGAAGGAGGGTTACCTTTCCCAGGTCATCCACAAAATCTCTGAAC TTATGGTAAAGTATAACGCTATTGTAGTATTGGAAGACCTTAACGCGGGCTTCATGCGTGGGCGTCAGAAAGTCGA AAAACAAGTATACCAGAAGTTTGAGAAGAAATTGATCGAAAAGTTAAACTATTTAGTGTTCAAAAAACAGTCTAGT GATCTTCCCGGCGGGTTGATGCATGCATATCAGTTGGCGAATAAGTTCGAGTCGTTTAACACGTTGGGTAAGCAGT CTGGATTTCTTTTTTACATTCCGGCGTGGAATACTTCAAAGATGGATCCTGTCACTGGCTTCGTGAATCTGTTTGA TGTAAAATATGAATCCGTCGATAAGGCGAAAAGCTTCTTTAGCAAATTCGACTCTATTCGCTATAACGTAGAACGC GACATGTTTGAGTGGAAGTTTAATTACGGCGAGTTCACAAAGAAAGCCGAGGGGACGAAAACTGATTGGACCGTTT GCAGCTACGGCAATCGTATTATTACATTCCGTAATCCGGATAAAAATTCCCAATGGGATAATAAAGAGATTAATCT TACGGAGAACATTAAGCTGTTATTTGAACGTTTTGGAATCGATTTGTCATCCAATTTAAAGGATGAAATCATGCAA CGCACGGAGAAGGAATTTTTCATTGAATTAATCAGCTTGTTTAAGTTGGTGCTGCAAATGCGCAACAGTTGGACGG GCACCGACATTGATTACTTGGTAAGTCCTGTATGCAATGAAAATGGTGAATTTTTTGACTCACGCAATGTAGATGA AACCCTGCCTCAAAACGCTGATGCGAATGGCGCGTATAATATTGCCCGCAAGGGGATGATTTTACTGGATAAAATT AAGAAATCTAACGGGGAAAAGAAACTTGCTTTATCAATTACCAATCGTGAATGGTTATCGTTCGCACAAGGTTGCT GCAAGAACGGATGA SEQ ID NO: 3 ART1_Optimized_2 ATGGAAACATTTAGCGGATTCACTAATTTGTACCCACTGTCGAAAACTTTGCGTTTTCGTCTTATCCCAGTCGGTG AAACGCTTAAACACTTTATTGACTCGGGTATCTTGGAGGAGGATCAACATCGCGCGGAAAGCTATGTGAAAGTAAA GGCGATTATTGACGACTACCATCGTGCATATATTGAAAACAGCCTTTCCGGGTTCGAGCTGCCGTTAGAGTCTACT GGAAAGTTTAACAGCTTAGAAGAATACTATCTGTACCACAACATCCGCAATAAAACAGAGGAGATTCAAAATCTGA GTAGCAAGGTCCGTACAAACTTACGTAAACAGGTAGTCGCACAGTTGACAAAAAATGAGATTTTTAAGCGTATCGA CAAAAAAGAGCTTATTCAATCTGATTTAATTGACTTCGTGAAGAACGAACCCGATGCAAACGAAAAGATCGCCCTT ATCTCGGAGTTTCGCAACTTCACAGTGTACTTTAAAGGGTTTCATGAAAACCGCCGTAATATGTATAGCGACGAGG AAAAGTCGACTAGTATTGCGTTCCGTTTAATTCACGAAAATCTTCCGAAGTTCATCGATAATATGGAGGTTTTTGC AAAGATTCAAAATACTAGCATTTCGGAAAATTTTGATGCAATTCAAAAGGAGCTTTGTCCTGAACTGGTGACTTTA TGTGAAATGTTCAAATTGGGGTACTTCAATAAAACCCTGTCTCAGAAGCAAATCGACGCTTATAACACTGTGATTG GCGGCAAAACTACGTCAGAAGGCAAAAAAATCAAGGGTTTAAACGAATACATCAACTTGTACAATCAGCAACACAA ACAGGAAAAGCTTCCAAAGATGAAGCTTTTGTTTAAGCAAATTCTGTCCGACCGTGAAAGCGCCTCGTGGTTACCA GAAAAATTCGAAAACGATTCCCAGGTAGTGGGGGCCATTGTTAACTTTTGGAACACTATTCACGATACAGTCCTTG CTGAAGGCGGACTGAAAACGATTATTGCGTCGCTTGGATCATATGGATTGGAGGGTATTTTCTTAAAAAATGACCT TCAACTTACGGACATTTCACAAAAAGCAACAGGAAGTTGGGGGAAAATCTCGTCGGAAATCAAGCAGAAAATTGAA GTGATGAACCCGCAGAAAAAAAAGGAATCATACGAAACGTACCAAGAGCGCATCGACAAGATTTTTAAGTCCTACA AATCCTTCAGCCTTGCATTCATCAATGAATGTTTGCGCGGTGAGTATAAGATCGAAGACTACTTCTTAAAGTTGGG TGCCGTAAATAGCAGCAGCTTACAGAAAGAAAATCACTTTTCTCACATTCTTAATACATATACGGATGTCAAAGAA GTCATTGGCCTGTATTCTGAATCAACTGATACAAAATTAATTCAAGATAATGATTCCATCCAGAAAATCAAACAGT TCTTAGACGCAGTGAAGGATTTACAAGCCTACGTTAAACCATTATTGGGTAATGGTGACGAAACTGGGAAAGATGA GCGCTTCTACGGTGATTTAATTGAGTACTGGAGTCTTTTAGATCTTATCACACCACTTTACAATATGGTCCGTAAT TACGTTACCCAGAAACCTTATAGTGTTGACAAAATTAAAATTAACTTTCAGAACCCCACCTTATTAAACGGCTGGG ACTTAAACAAAGAGACTGATAACACTTCAGTGATCCTTCGCCGTGATGGTAAGTACTACTTAGCAATTATGAACAA TAAAAGTCGTAAAGTTTTTCTGAAGTACCCGTCCGGCACTGATCGTAACTGTTACGAAAAGATGGAGTACAAGCTG TTACCTGGTGCTAACAAAATGCTTCCTAAAGTCTTTTTTAGCAAGTCTCGCATCAATGAATTTATGCCAAATGAAC GTTTACTGTCTAACTACGAGAAGGGTACCCACAAGAAGTCAGGGACCTGCTTTTCTTTAGATGACTGTCATACTCT GATCGATTTCTTCAAGAAGTCTCTTGATAAGCACGAAGATTGGAAGAATTTCGGCTTCAAATTTTCAGACACCTCT ACGTACGAAGATATGTCTGGATTTTATAAGGAGGTGGAGAACCAGGGGTATAAATTATCGTTTAAGCCTATTGATG CAACTTATGTCGACCAACTGGTTGATGAGGGGAAAATCTTTCTTTTTCAGATTTATAACAAGGATTTCTCCGAACA TTCGAAGGGGACTCCAAACATGCACACTCTGTATTGGAAAATGTTATTCGATGAGACCAACTTAGGCGACGTTGTG TACAAACTGAATGGTGAGGCAGAAGTATTTTTCCGTAAAGCTTCAATCAATGTTTCTCACCCTACCCACCCCGCGA ATATTCCAATCAAGAAAAAGAATTTGAAGCATAAGGATGAAGAACGTATTTTAAAATACGATCTGATCAAGGACAA ACGTTACACTGTCGACCAGTTTCAATTCCATGTACCTATTACCATGAATTTCAAAGCTGACGGGAACGGTAATATT AATCAAAAAGCTATCGACTACCTGCGCAGTGCGTCCGACACGCATATTATCGGTATTGACCGTGGCGAACGCAACC TGTTATACCTTGTCGTTATCGACGGTAATGGTAAAATCTGTGAACAGTTTTCTTTAAATGAGATCGAGGTCGAGTA TAATGGCGAAAAATACTCAACCAATTACCATGATTTACTTAACGTCAAAGAAAACGAGCGCAAGCAAGCTCGTCAA TCATGGCAGTCGATTGCAAACATTAAAGATTTAAAGGAAGGTTATCTTTCTCAGGTAATTCACAAGATTTCCGAGT TAATGGTCAAATATAACGCCATTGTCGTGTTGGAGGATCTGAATGCTGGCTTCATGCGCGGACGCCAGAAGGTTGA AAAACAGGTCTACCAGAAGTTCGAGAAGAAATTGATTGAGAAACTGAACTATCTGGTTTTTAAAAAACAGTCGTCT GATCTGCCAGGGGGCTTAATGCACGCGTATCAGTTGGCTAATAAGTTTGAGTCGTTTAACACACTTGGGAAACAGT CCGGGTTTCTGTTCTATATTCCTGCGTGGAATACATCCAAGATGGACCCAGTCACAGGGTTCGTCAACTTGTTTGA CGTAAAGTACGAGTCAGTTGACAAAGCGAAATCATTTTTTAGCAAATTTGACTCTATTCGCTACAACGTTGAGCGC GATATGTTTGAGTGGAAGTTCAATTATGGCGAATTCACGAAGAAAGCCGAGGGGACAAAAACCGATTGGACTGTCT GTTCTTATGGCAATCGTATTATTACGTTTCGCAACCCAGACAAGAATTCACAATGGGACAATAAAGAGATTAATTT AACTGAGAACATTAAGCTGTTATTTGAGCGTTTTGGGATCGATCTGTCGAGCAACCTTAAGGACGAAATTATGCAA CGCACAGAGAAGGAATTCTTTATTGAACTGATCTCCCTTTTTAAACTGGTGCTGCAAATGCGTAACAGTTGGACGG GTACTGATATTGATTACTTAGTGAGTCCTGTTTGCAACGAAAACGGGGAGTTCTTTGACTCACGCAACGTAGACGA GACATTACCCCAGAACGCCGATGCAAATGGCGCCTATAATATCGCGCGTAAAGGGATGATCCTTTTGGATAAGATC AAGAAATCCAACGGCGAAAAAAAATTGGCACTGTCGATCACCAACCGCGAGTGGCTGAGTTTTGCACAAGGATGTT GTAAAAACGGCTGA SEQ ID NO: 4 ART1_Optimized_3 ATGGAGACATTCTCTGGTTTTACAAACCTTTATCCCTTAAGTAAGACTCTGCGCTTCCGTTTGATTCCAGTAGGCG AGACACTGAAGCATTTCATTGACTCAGGCATCCTGGAAGAGGATCAGCATCGCGCCGAGTCGTACGTCAAAGTTAA AGCGATTATTGACGACTATCACCGTGCGTACATTGAAAACTCGCTTTCGGGGTTTGAATTACCCTTGGAGTCTACC GGGAAATTTAATAGCCTGGAGGAATACTACTTGTATCACAACATCCGCAATAAAACTGAAGAAATCCAGAATCTGA GTAGCAAAGTGCGTACTAATCTTCGTAAGCAAGTAGTAGCGCAGCTGACAAAGAATGAAATTTTTAAGCGCATTGA TAAAAAAGAACTGATTCAATCGGACTTGATTGACTTTGTAAAAAACGAACCCGACGCAAACGAGAAAATTGCGCTG ATTAGTGAGTTCCGCAACTTCACAGTCTATTTTAAAGGTTTCCACGAGAACCGCCGCAATATGTACAGTGATGAGG AAAAATCTACAAGTATCGCATTTCGTCTGATTCACGAGAACCTTCCCAAATTTATCGACAACATGGAAGTCTTCGC CAAGATTCAGAATACCTCCATCTCGGAGAATTTCGACGCTATCCAAAAGGAGTTGTGTCCCGAACTGGTGACTTTA TGTGAAATGTTCAAGCTGGGCTATTTTAATAAGACATTATCCCAGAAACAGATCGATGCGTATAACACAGTAATTG GCGGAAAAACAACATCTGAAGGGAAAAAGATCAAAGGACTTAATGAGTACATCAACTTATACAACCAACAGCACAA GCAGGAAAAGCTTCCTAAAATGAAACTTTTGTTCAAACAGATCTTAAGCGATCGCGAATCTGCTTCTTGGCTGCCA GAAAAGTTCGAAAATGATAGCCAGGTAGTTGGGGCCATTGTGAATTTCTGGAACACCATCCACGACACCGTACTTG CGGAAGGAGGGCTGAAGACTATTATTGCTTCGTTGGGCTCCTACGGGCTTGAAGGAATCTTCCTTAAAAATGACTT GCAACTGACCGATATCTCTCAAAAAGCTACAGGATCATGGGGAAAAATCAGCTCAGAAATTAAACAGAAGATTGAG GTTATGAACCCGCAGAAGAAGAAAGAAAGCTATGAAACGTACCAAGAGCGTATTGACAAAATCTTTAAGTCGTACA AGTCTTTTAGTTTGGCATTCATTAACGAGTGCTTGCGCGGTGAGTACAAAATTGAGGACTACTTCTTAAAGTTGGG TGCTGTAAATAGCTCCAGTCTGCAGAAGGAAAATCATTTCTCACACATTCTTAACACGTATACCGACGTAAAGGAA GTGATTGGTCTGTACTCGGAATCCACGGACACTAAATTAATCCAAGACAACGACTCTATTCAAAAGATTAAACAAT TCCTGGACGCAGTGAAAGATTTACAAGCTTATGTAAAGCCACTTTTAGGTAACGGAGATGAAACTGGGAAGGATGA GCGTTTTTATGGTGATCTGATTGAGTATTGGTCTTTATTAGACTTAATCACGCCATTGTACAACATGGTACGTAAC TATGTCACACAGAAACCTTATTCGGTGGATAAAATCAAGATCAATTTCCAGAATCCAACTCTGCTGAATGGATGGG ATCTGAATAAGGAAACTGATAATACAAGCGTCATTCTGCGTCGTGACGGCAAATACTATTTGGCAATTATGAACAA CAAGTCGCGCAAAGTGTTCCTGAAGTACCCTAGCGGAACTGATCGTAACTGTTACGAAAAAATGGAGTACAAGCTT CTTCCGGGTGCGAATAAGATGTTACCTAAAGTATTCTTCTCTAAGAGCCGCATCAATGAGTTCATGCCGAACGAAC GTTTGTTATCCAACTACGAAAAAGGAACGCACAAGAAGTCGGGTACATGCTTTTCGCTTGATGATTGTCACACGTT GATTGATTTTTTTAAGAAGAGCTTGGACAAACACGAAGATTGGAAGAACTTTGGATTTAAATTCTCAGATACTTCG ACCTATGAAGACATGTCCGGGTTCTATAAAGAAGTGGAAAATCAAGGATATAAGCTGAGCTTCAAACCAATTGATG CGACCTATGTAGATCAACTGGTCGATGAAGGGAAGATCTTTTTATTCCAAATCTATAATAAAGACTTCTCAGAGCA TTCCAAGGGAACGCCCAACATGCACACGTTGTACTGGAAAATGCTTTTTGATGAAACTAATTTAGGTGACGTGGTG TATAAATTGAATGGTGAAGCTGAAGTATTCTTTCGTAAGGCAAGTATCAATGTCTCTCATCCGACGCATCCAGCTA ATATTCCCATCAAGAAGAAAAACCTGAAACACAAAGATGAAGAACGTATCTTGAAGTACGACTTGATCAAAGATAA GCGTTATACAGTAGACCAGTTCCAATTCCATGTGCCTATCACCATGAATTTTAAAGCAGATGGAAATGGAAATATC AATCAAAAAGCCATCGACTACTTACGCTCCGCTTCAGATACTCACATTATCGGCATTGACCGCGGAGAGCGCAATC TGTTGTATCTGGTAGTGATCGATGGTAATGGAAAGATTTGTGAACAGTTCTCATTAAACGAAATTGAAGTAGAGTA TAATGGTGAAAAGTATTCTACAAACTACCATGATTTATTGAATGTTAAAGAAAATGAACGTAAACAGGCTCGCCAG AGCTGGCAGTCTATCGCGAATATTAAGGATCTGAAAGAGGGATACCTTTCTCAGGTGATTCATAAGATCTCCGAGC TGATGGTCAAATACAACGCCATCGTTGTGTTAGAGGACCTTAATGCAGGTTTCATGCGCGGGCGCCAAAAGGTAGA GAAACAAGTATACCAGAAGTTTGAGAAGAAACTGATCGAAAAACTTAACTACTTAGTGTTCAAAAAACAGTCTAGC GATCTGCCAGGCGGGCTTATGCATGCTTATCAACTGGCCAATAAGTTCGAGTCCTTCAACACGTTGGGTAAACAAT CTGGATTTCTTTTCTACATTCCGGCATGGAATACGTCTAAAATGGATCCTGTGACTGGCTTTGTGAATTTATTTGA TGTTAAGTATGAGAGTGTAGATAAAGCGAAAAGTTTCTTTTCTAAATTTGACTCCATTCGCTATAATGTGGAACGT GATATGTTTGAGTGGAAGTTCAATTATGGTGAGTTCACCAAAAAGGCTGAAGGGACCAAGACAGACTGGACTGTGT GCAGTTATGGAAACCGCATCATTACTTTTCGCAACCCCGATAAAAATTCTCAATGGGACAACAAGGAGATTAACTT GACAGAAAATATCAAGCTTTTGTTTGAACGCTTCGGCATTGATCTTTCTTCGAACCTTAAGGACGAGATCATGCAG CGTACTGAGAAGGAGTTCTTCATTGAATTAATTTCATTGTTCAAATTGGTCCTGCAAATGCGTAATAGCTGGACTG GTACTGACATCGATTATTTGGTCTCTCCCGTGTGTAACGAGAATGGAGAGTTTTTCGACTCGCGTAACGTCGATGA AACTTTGCCCCAAAACGCAGACGCCAACGGTGCCTACAACATCGCTCGTAAGGGGATGATCCTGTTAGATAAAATC AAGAAATCAAACGGAGAAAAGAAACTGGCTCTTTCTATTACTAATCGTGAGTGGCTGTCGTTTGCTCAAGGATGCT GTAAGAATGGTTGA SEQ ID NO: 5 ART2_WT ATGTTGTCAAATTTTACAAATCAGTACCAACTTTCAAAAACCTTGCGTTTTGAACTCAAACCTGTAGGTG  ATACACTTAAGCATATAGAGAAAAGTGGCTTGATAGCACAAGATGAAATACGCTCACAAGAGTATCAAGA AGTAAAAACGATTATCGATAAATACCACAAAGCTTTTATTGATGAAGCACTTCAAAATGTTGTGCTTAGT AATCTTGAAGAGTACGAAGCACTTTTTTTCGAGAGAAATCGCGATGAAAAAGCTTTTGAAAAATTGCAAG CTGTATTGCGTAAAGAGATAGTTGCACATTTTAAGCAACACCCTCAATACAAAACACTTTTTAAAAAAGA GCTTATTAAAGCTGATTTGAAAAATTGGCAAGAACTAAGCGACGCAGAAAAAGAGCTTGTAAGCCACTTT GATAACTTCACAACCTACTTTACAGGTTTTCATGAAAATCGTGCCAATATGTACACAGATGAAGCGAAAC ACTCTTCTATCGCTTACCGTATTATCCACGAAAATTTGCCTATTTTTTTAACAAATAAAAAACTTTTTGA AACAATCAAGCAAAAAGCACCACACCTTGCACAAGAAACGCAAGATGCCTTGCTTGAATATTTAAGTGGT GCAATAGTTGAAGATATGTTTGAGCTTAGTTATTTTAACCACCTACTTTCACAGACTCATATCGATCTAT ACAACCAAATGATTGGCGGAGTCAAACAAGATAGTTTAAAAATTCAGGGTTTAAACGAAAAAATCAATCT CTATCGTCAAGCAAACGGCTTGTCAAAACGTGAACTGCCAAATCTCAAACCACTACACAAACAGATACTT AGTGATCGTGAAACACTCTCTTGGCTTCCTGAATCATTTGAAAGCGATGAGGAACTTATGCAAGGTGTGC AAGCATATTTTGAGAGTGAAGTATTAGCTTTTGAGTGCTGCGATGGTAAGGTCAATCTTTTAGAGAAACT GCCTGAGCTTTTGCACCAAACACAAGATTATGATTTTTCAAAAGTTTATTTCAAAAACGATCTAGCACTT ACAGCTGCTTCGCAAGCGATTTTTAAAGATTATCGCATTATAAAAGAAGCACTTTGGGAAGTGAATAAAC CTAAAAAATCAAAAGATTTAGTGGCGGATGAAGAGAAGTTTTTTAACAAGAAAAATAGCTATTTTAGTAT TGAGCAAATAGATGGTGCCTTAAATAGTGCGCAACTCTCCGCTAACATGATGCACTATTTCCAAAGTGAA TCTACAAAGGTAATCGAGCAAATTCAATTGACTTACAATGATTGGAAGCGAAACAGTTCAAATAAAGAAC TTCTAAAAGCTTTTTTAGACGCGCTTTTATCGTATCAACGTCTTTTAAAACCGCTTAATGCTCCAAACGA TCTTGAAAAAGATGTTGCTTTTTATGCCTACTTCGATGCTTATTTTACGAGTTTATGCGGTGTAGTCAAG CTTTACGACAAAGTAAGAAACTTTATGACCAAAAAGCCGTATTCACTTGAAAAATTTAAACTCAATTTTG AAAACTCGACACTACTTGATGGTTGGGATGTCAATAAAGAGTCTGATAATACGGCAATTTTATTTCGCAA AGAGGGCTTGTATTATCTAGGTATTATGAATAAAAAGTATAACAAAGTATTTCGCAATATTTCTAGTTCA CAAGATGAGGGTTACCAAAAAATTGACTATAAACTATTACCAGGTGCGAATAAAATGCTTCCAAAAGTCT TTTTTTCTGATAAGAATAAGGAATATTTTAAGCCAAATGCTAAGTTACTTGAGAGATATAAAGCGGGAGA GCATAAAAAAGGGGATAATTTCGACTTAGATTTTTGTCACGAATTAATAGACTTTTTTAAAACTTCAATC GAAAAACATCAAGATTGGAAACATTTTGCTTATCAGTTTTCACCGACTGAGAGTTACGAAGATTTAAGCG GTTTTTATAGAGAGGTTGAACAGCAAGGTTATAAAATCAGTTATAAAAATATTGCAGCAAGTTTTATCGA TACATTAGTTGCAGAAGGTAAACTCTATTTTTTCCAGATCTACAACAAAGACTTTTCTCCCTATAGTAAA GGTACGCCAAATATGCACACTCTTTATTGGCGTGCACTTTTTGACGAAAAGAATCTAGCTGATGTGATCT ACAAACTTAACGGGCAAGCGGAGATATTTTTCCGTAAAAAATCGATCGAGTACTCCCAAGAGAAGCTGCA AAAAGGGCATCACCACGAAATGCTTAAAGATAAGTTTGCTTATCCAATTATCAAAGATCGTCGTTTTGCT TTTGATAAGTTCCAGTTTCATGTACCAATAACGCTCAACTTTAAAGCAGAGGGTAATGAAAACATTACGC CAAAAACATTTGAATACATTCGATCTAATCCCGACAACATAAAAGTTATAGGTATAGATCGTGGTGAGCG TCACTTACTCTATCTTTCACTCATTGATGCAGAGGGTAAGATCGTAGAGCAGTTTACGCTCAATCAAATT ATTAATAGCTACAACGGGAAAGACCACGTCATAGATTATCATGCCAAACTTGACGCAAAAGAAAAAGACC GCGACAAAGCTCGAAAAGAGTGGGGAACTGTCGAAAACATCAAAGAACTAAAAGAGGGCTATTTAAGCCA TGTTATCCATAAGATAGCAACTCTTATCATTGAACACGGTGCAGTTGTAGCGATGGAAGATCTCAACTTT GGCTTTAAACGTGGACGTTTCAAAGTTGAAAAGCAAGTCTATCAAAAATTTGAAAAAGCACTTATCGATA AGCTGAACTATCTTGTCGATAAGAAAAAAGAGCCTCATAAACTTGGAGGTCTTTTAAATGCGTTGCAACT CACTAGCAAGTTTCAAAGTTTTGAAAAAATGGGTAAACAAAACGGCTTTTTGTTTTATGTACCTGCGTGG AATACATCCAAAATAGATCCTGTTACGGGTTTTGTTAATCTTTTTGATACCCGTTATGCAAGTGTAGAAA AATCCAAAGCATTTTTTACTAAGTTTCAATCAATTTGCTACAACGAAGCTAAAGATTACTTCGAGTTAGT ATTTGATTATAATGATTTCACAGAAAAAGCTAAAGAAACTCGAAGCGAGTGGACACTTTGTACTTATGGT GAACGCATTGTGAGCTTTAGAAACGCGGAGAAAAATCATCAATGGGATAGCAAAACAATTCATCTTACAA CAGAGTTTAAAAACCTTTTTGGTGAGCTGCATGGTAATGATGTAAAAGAGTATATTTTAGAGCAAAATTC AGTTGAGTTTTTTAAGTCACTTATCTATTTATTAAAAATTACTTTGCAGATGCGTAACTCAATCACGGGT ACTGATATAGACTATCTTGTCTCACCCGTCGCAGATGAAGCAGGGAATTTTTACGACAGTCGTAAAGCCG ATACATCTTTACCAAAAGATGCCGACGCAAACGGTGCGTATAATATCGCTCGTAAAGGTTTAATGTTGAT GCATCGCATCCAAAACGCCGAAGATCTCAAAAAAGTGAACTTGGCGATTTCAAACCGTGACTGGCTCCGC AACGCTCAAGGACTGGATAAATGA SEQ ID NO: 6 ART2_Optimized_1_sequence codon optimized for expression in Escherichia coli ATGCTGAGTAACTTTACCAACCAGTATCAGTTATCCAAGACCTTACGTTTCGAATTGAAGCCGGTCGGGGATACGT TGAAACACATCGAGAAGAGTGGGTTGATCGCCCAAGACGAAATCCGTTCCCAAGAGTACCAAGAGGTTAAAACAAT CATCGACAAGTACCACAAAGCCTTTATCGACGAAGCTTTACAAAATGTGGTGTTATCCAATCTTGAGGAATACGAA GCTCTTTTCTTCGAACGTAATCGTGACGAGAAGGCGTTCGAGAAATTGCAAGCTGTATTGCGCAAAGAAATTGTAG CACATTTTAAACAACATCCCCAATATAAGACCCTTTTTAAGAAGGAGTTAATCAAAGCTGACCTGAAAAATTGGCA AGAACTGAGCGATGCCGAGAAAGAGTTGGTCTCGCACTTTGATAACTTTACTACATACTTCACGGGTTTCCACGAG AATCGCGCCAATATGTACACGGACGAGGCGAAGCACAGCAGTATCGCCTACCGTATTATTCACGAAAATCTTCCAA TCTTTCTTACTAACAAGAAACTGTTCGAAACCATTAAGCAGAAAGCTCCACATTTAGCCCAGGAAACGCAGGATGC ATTATTGGAGTATTTATCCGGAGCCATCGTGGAAGATATGTTTGAACTTAGTTATTTCAACCACTTGCTGAGTCAG ACGCATATTGATCTGTATAATCAGATGATTGGTGGAGTTAAGCAGGATAGTTTAAAGATTCAGGGTCTGAATGAGA AGATTAATCTTTACCGTCAAGCGAATGGGCTTTCGAAACGTGAATTGCCGAATCTTAAACCGCTGCATAAACAAAT TCTGTCGGATCGTGAGACATTATCTTGGCTTCCGGAATCTTTCGAGAGTGACGAGGAGCTGATGCAAGGGGTCCAG GCATATTTCGAATCTGAAGTTCTTGCCTTTGAATGTTGCGATGGGAAGGTTAACTTATTAGAGAAACTGCCGGAGT TGTTACACCAAACACAGGATTATGATTTTAGTAAAGTTTACTTCAAGAACGATTTAGCATTGACCGCTGCATCACA GGCAATCTTTAAAGACTATCGTATCATTAAGGAGGCGTTGTGGGAGGTTAATAAGCCGAAAAAATCTAAAGACTTA GTCGCTGACGAGGAAAAATTCTTTAATAAGAAGAACTCCTACTTCTCTATTGAGCAGATTGATGGAGCGTTGAACT CGGCGCAGCTGAGCGCTAACATGATGCACTATTTTCAGAGTGAATCTACAAAGGTTATTGAACAAATCCAATTGAC TTATAACGACTGGAAGCGTAACAGTAGCAACAAGGAATTGCTTAAGGCATTCCTTGACGCACTGCTTTCTTATCAG CGTCTTTTAAAGCCTTTAAATGCCCCTAATGACCTTGAGAAGGATGTGGCATTCTATGCCTACTTTGACGCCTACT TTACAAGCCTGTGTGGTGTCGTTAAACTGTACGACAAGGTACGTAATTTCATGACCAAGAAGCCGTATTCGTTAGA GAAATTTAAGTTGAATTTTGAAAACTCGACGCTTTTAGACGGTTGGGATGTCAATAAAGAATCCGACAACACTGCT ATTTTATTTCGTAAGGAGGGGTTGTACTATCTGGGTATTATGAATAAAAAGTACAATAAGGTCTTTCGTAATATTT CATCATCCCAAGACGAGGGCTATCAAAAAATCGACTATAAATTACTTCCAGGGGCCAATAAGATGCTGCCAAAAGT GTTTTTCAGTGATAAGAATAAGGAGTATTTCAAGCCAAACGCCAAGCTGTTGGAACGTTACAAAGCCGGTGAGCAC AAAAAAGGGGATAACTTTGATCTTGACTTCTGTCACGAATTGATCGACTTTTTCAAGACAAGCATCGAAAAGCACC AAGACTGGAAACACTTCGCCTACCAGTTTAGTCCCACCGAATCGTACGAGGACCTTTCAGGTTTTTACCGTGAGGT GGAACAACAGGGGTACAAAATCAGTTACAAAAATATCGCTGCTAGCTTTATCGATACGCTGGTGGCAGAGGGTAAA CTGTATTTTTTCCAGATTTACAACAAGGATTTCAGTCCATACTCGAAGGGAACTCCCAACATGCACACCTTATATT GGCGTGCCTTGTTCGACGAGAAGAACTTAGCGGATGTAATTTATAAGTTGAACGGTCAGGCCGAAATTTTTTTTCG TAAAAAGAGCATCGAATATTCGCAGGAAAAGTTACAAAAGGGGCACCACCATGAGATGTTAAAGGATAAGTTTGCG TACCCAATTATCAAGGATCGCCGCTTTGCCTTTGACAAGTTCCAGTTTCACGTGCCTATTACACTGAATTTTAAAG CGGAGGGCAATGAGAATATCACTCCTAAGACGTTTGAATATATTCGCTCGAATCCTGATAACATTAAGGTGATTGG GATTGATCGCGGCGAGCGCCACTTACTTTACCTGAGTTTAATCGACGCGGAAGGTAAGATTGTTGAACAGTTTACA TTAAACCAAATTATCAATAGCTACAATGGGAAAGACCATGTGATTGACTATCATGCCAAATTGGATGCAAAGGAAA AAGATCGCGATAAGGCTCGCAAGGAATGGGGGACTGTGGAAAATATCAAGGAATTGAAAGAAGGTTATTTAAGTCA TGTAATCCATAAAATCGCAACCCTTATTATCGAGCATGGCGCTGTTGTAGCAATGGAAGACCTTAATTTTGGCTTC AAGCGCGGGCGTTTCAAAGTGGAGAAGCAGGTGTATCAGAAATTTGAGAAAGCTTTAATTGATAAATTGAATTATT TGGTTGATAAGAAAAAAGAGCCGCATAAGTTAGGTGGCTTGTTGAATGCTTTGCAATTAACGTCAAAATTTCAGTC TTTCGAAAAGATGGGAAAACAGAACGGTTTCCTTTTCTATGTGCCAGCCTGGAACACATCAAAAATTGACCCCGTC ACTGGGTTTGTAAACCTGTTTGATACTCGCTATGCAAGCGTTGAAAAAAGTAAAGCTTTCTTCACGAAGTTCCAGT CAATTTGCTACAATGAGGCCAAGGACTACTTTGAGTTGGTGTTCGACTACAATGACTTTACAGAGAAGGCTAAAGA AACACGTTCAGAGTGGACCTTATGTACATATGGGGAGCGCATCGTGTCTTTTCGCAATGCCGAAAAAAACCACCAG TGGGACTCCAAAACGATTCATTTGACCACTGAATTTAAGAATTTATTTGGGGAATTGCATGGGAATGATGTAAAAG AGTATATTCTGGAACAAAATTCTGTTGAATTTTTCAAATCACTGATTTATCTTCTTAAGATTACTCTTCAGATGCG CAATTCTATCACGGGCACCGACATTGACTACTTAGTCTCTCCGGTCGCAGATGAAGCTGGGAATTTCTATGACTCC CGTAAGGCGGACACAAGTCTTCCGAAAGACGCTGATGCGAACGGTGCATACAATATCGCGCGCAAAGGACTGATGC TGATGCACCGTATCCAGAACGCGGAGGACTTGAAGAAGGTAAATTTGGCCATCTCAAATCGTGATTGGTTGCGCAA TGCCCAAGGTTTAGATAAATGA SEQ ID NO: 7 ART2 sequence codon optimized for expression in Saccharomyces cerevisiae ATGTTAAGCAACTTCACCAATCAGTATCAGCTAAGTAAGACTCTGAGATTCGAGCTTAAGCCTGTTGGCGATACCC TAAAACACATTGAGAAATCAGGTCTAATAGCTCAGGACGAAATTCGTAGCCAAGAATATCAGGAAGTCAAGACTAT TATTGATAAATACCACAAGGCCTTTATTGATGAGGCCCTACAGAATGTAGTCCTAAGCAATCTAGAAGAATACGAG CTCACTTTAAGCAGCACCCGCAATATAAAACATTATTCAAGAAAGAGCTAATCAAGGCTGACTTAAAGAATTGGCA AACCGTGCGAACATGTATACCGATGAAGCAAAACACAGTTCCATAGCTTATCGTATCATTCACGAAAATCTGCCGA TATTOTTAACTAACAAGAAATTGTTTGAGACTATAAAGCAAAAGGCGCCACATTTAGCCCAAGAAACACAGGACGC TTTATTGGAATATCTGAGCGGGGCCATTGTAGAGGATATGTTTGAACTTTCATACTTTAACCACCTTTTATCCCAG ACCCACATTGACITATATAATCAAATGATAGGTGGGGTCAAGCAAGACTCACTGAAAATTCAAGGCCTTAACGAAA AGATCAATTTATACAGGCAGGCGAATGGTTTGAGTAAGCGTGAATTGCCGAATCTGAAGCCCCTGCACAAACAAAT TOTGTCTGATCGTGAAACTCTTTCCTGGCTTCCAGAATCTTTCGAATCTGATGAGGAACTGATGCAGGGTGTCCAA GCCTACTTCGAGTCTGAAGTTTTAGCATTCGAGTGCTGCGATGGTAAAGTTAACCTACTGGAGAAACTGCCCGAGC TTCTGCATCAAACCCAGGATTACGATTTOTCTAAGGTATATTICAAAAACGACTTAGCCCTAACAGCGGCTAGTCA GGCAATATTTAAGGATTACAGAATTATTAAAGAGGOTCTGTGGGAGGTGAATAAACCGAAAAAATCTAAGGACCTT GTCGCCGACGAAGAAAAGTTTTTTAATAAAAAAAACAGCTATTTTAGCATAGAACAAATTGACGGGGCATTGAACT CAGCACAACTATCTGCTAACATGATGCATTATTITCAAAGCGAAAGCACCAAGGTCATTGAACAAATTCAGTTAAC TTATAACGACTGGAAGAGGAACTCATCTAACAAGGAGOTGTTAAAGGCTTTTTTGGATGCATTATIGTCTTATCAA AGATTGCTGAAACCETTGAACGCTCCAAATGATOTTGAGAAGGACCTAGCGTTCTACGCTTACTTCGATGCATATT TTACTICCCTGTGCGGTGTCGTAAAGCTATAIGACAAGGTCAGGAATTTCATGACTAAAAAACCATACTCACTTGA AAAATTTAAACTTAATTICGAAAATTCAACGTTATTAGATGGTIGGGATGTCAATAAAGAGAGCGACAATACGGCT ATCCTGTTTCGTAAAGAGGGTTTGTATTACCTGGGAATCATGAATAAAAAGTACAACAAGGTCTTCAGAAACATTA GTTCATCICAGGACGAGGGTTATCAGAAAATCGATTATAAATTGTTGCCAGGTGCTAACAAGATGCTGCCGAAAGT AAGATTGGAAACACTTCGCATATCAATTCAGCCCCACTGAGAGCTACGAGGATTTATCCGGCTTTTACAGGGAAGT AGAGCAGCAGGGTTATAAGATCAGTTACAAAAACATAGCGGCTTCTTTTATAGATACTTTAGTAGCCGAGGGTAAA TTATACTTCTTTCAAATTTATAACAAGGATTTCTCCCCTTATTCTAAGGGCACTCCTAATATGCATACTTTATATT GGAGGGCTCTTTTTGACGAGAAGAACCTGGCAGATGTCATTTATAAGCTAAATGGGCAAGCGGAAATTTTTTTCCG TAAGAAGAGCATAGAATATTCTCAGGAGAAGCTGCAAAAGGGACATCACCACGAAATGCTAAAAGACAAATTCGCC TACCCAATCATAAAAGATAGAAGATTIGCTTTTGACAAATTCCAGTTICACGTACCTATCACATTAAACTTTAAGG CCGAGGGAAATGAGAACATAACACCGAAAACATTTGAATATATACGTTCTAATCCAGACAATATTAAGGTGATAGG AATTGACCGTGGTGAGAGGCACCTTCTATATCTATCTCTAATAGACGCAGAAGGAAAGATCGTAGAACAGTTTACT CTGAACCAAATCATAAACAGTTACAATGGCAAGGACCACGTAATCGACTATCACGCTAAATTGGACGCCAAAGAGA AGGATAGAGACAAGGOTOGTAAGGAATGGGGTACTGTGGAAAATATCAAAGAGOTTAAGGAGGGCTACCTTTCACA TETTATCCACAAAATCGCGACTCTGATAATAGAACATGGGGCAGTIGTGGCCATGGAGGATCTAAACTTCGGATTC AAGCGTGGCAGATTTAAGGTAGAAAAGCAGGTTTACCAGAAGTTTGAAAAAGCCCTGATAGATAAATTAAACTATC TGGTCGACAAGAAGAAAGAACCCCATAAACTGGGAGGGTTACTTAACGCGTTACAATTGACGAGCAAGTTCCAATC CTTTGAGAAGATGGGCAAGCAGAACGGATTTCTTTTTTACGTACCGGCATGGAACACAAGTAAAATTGATCCCGTC ACTGGGTTCGTTAATCTGTTTGACACTAGATATGCCAGCGTCGAAAAGAGCAAAGCATTTTTTACAAAGTTTCAGT CCATCTGTTATAATGAAGCCAAAGATTACTICGAACTTGTTTTTGATTACAACGATTTCACCGAAAAAGCTAAAGA AACTCGTTCCGAATGGACGCTATGCACCTACGGTGAAAGAATCGTATCCTTCAGGAACGCAGAAAAGAACCACCAG TGGGATTCCAAGACTATCCATTTAACGACGGAGTTCAAAAATCTTTTCGGTGAACTACATGGCAACGACGTGAAAG AGTACATACTTGAACAAAACAGTGTAGAGTTOTTTAAGAGTTTAATTTACTTGCTGAAGATCACGCTACAGATGAG AAACTCAATAACGGGTACGGATATCGACTACCTAGTAAGTCCCGTTGCTGACGAAGCAGGCAATTTCTATGATAGT AGGAAGGCTGACACCTCACTTCCAAAAGACGCAGACGCCAACGGCGCCTATAATATTGCCAGGAAAGGTOTTATGT TAATGCATAGAATCCAGAATGCCGAAGACTTAAAAAAAGTGAACCTTGCAATATCTAACAGAGACTGGCTTCGTAA TGCCCAGGGCTTAGATAAATGA SEQ ID NO: 8 ART2 sequence codon optimized for expression in Homo sapiens ATGTTGAGCAATTTTACGAATCAGTACCAACTGTCAAAAACCCTTAGATTCGAGCTCAAGCCCGTCGGGGACACGC TTAAGCACATTGAGAAGAGCGGGCTGATCGCTCAAGATGAAATACGATCTCAAGAATATCAAGAAGTTAAAACGAT CATCGATAAGTATCATAAGGCGTTTATAGATGAGGCATTGCAGAACGTGGTACTGTCTAATTTGGAGGAATACGAA GCATTGTTCTTCGAGCGAAATCGGGACGAGAAGGCTTTCGAAAAGTTGCAAGCCGTGTTGCGAAAGGAAATAGTAG CGCATTTCAAGCAACATCCGCAATACAAAACATTGTTTAAAAAAGAACTTATTAAGGCAGATCTCAAGAACTGGCA AATCGCGCCAACATGTACACGGACGAAGCAAAGCACTCCTCTATTGCGTACCGGATTATCCATGAAAATCTGCCCA TCTTTCTCACGAACAAAAAGCTOTTTGAAACCATTAAGCAAAAGGCACCGCATTTGGCTCAGGAGACCCAGGACGC CCTGCTTGAATACCTGAGCGGCGCGATTGTGGAGGACATGTTCGAACTTTCCTATTTCAACCATCTTCTGTCACAA ACCCACATTGACCTGTATAACCAAATGATTGGAGGGGTTAAACAGGATTCCCTGAAGATCCAGGGCCTCAATGAGA AAATCAACCTTTACAGACAAGCCAACGGTCTTTCTAAAAGGGAACTCCCGAACCTCAAGCCTCTTCACAAGCAAAT TTTGAGCGATCGGGAAACTCTTAGTTGGCTCCCGGAAAGCTTCGAATCCGACGAAGAGCTTATGCAAGGAGTTCAA GCCTACTTCGAAAGTGAAGTGCTTGCATTCGAGTGTTGTGACGGCAAAGTAAATCTGTTGGAAAAGCTTCCTGAGC TCTTGCATCAAACCCAAGATTATGATTTTTCAAAGGTCTATTTTAAAAACGATCTGGCTOTTACAGCAGCCTCCCA GGCCATCTTCAAAGACTACCGAATTATTAAGGAGGCCCTOTGGGAAGTTAATAAGCCTAAGAAATCCAAAGATTTG GTTGCGGACGAGGAAAAGTTCTTTAATAAAAAGAATAGCTATTTTTCTATTGAGCAGATCGACGGCGCTTTGAACT CTGCTCAACTGTCAGCAAATATGATGCATTACTTTCAGTCTGAGAGCACAAAAGTAATCGAACAAATTCAATTGAC AGGCICCICAAGCCACTGAACGCACCAAACGATCTTGAGAAGGACGTCGCCTICTACGCTTACTTTGATGCATATT TTACCAGCCTTTGTGGTGTAGTCAAGOTGTACGACAAAGTACGGAATTTTATGACGAAGAAGCCTTACAGCCTCGA GAAATTTAAACTCAACTTTGAAAACTCAACCCTTCTTGATGGGTGGGATGTCAATAAGGAGTCCGACAATACGGCT ATACTTTTTAGGAAAGAAGGTCTCTATTACCTTGGGATTATGAACAAGAAATACAACAAAGTATTCAGGAACATAA GTTCCAGTCAGGATGAGGGTTATCAGAAAATTGACTACAAGCTCCTTCCTGGCGCTAACAAGATGCTCCCGAAGGT ATTTTTCAGCGACAAGAATAAGGAATATTTTAAGCCTAATGCGAAATTGOTCGAACCATATAAGGCCGGCGAACAT AAGAAGGGCGATAACITTGATCTTGACTTTTGTCATGAACTGATAGATTTCTTTAAAACGAGCATCGAGAAGCATC AAGACTGGAAGCACTTTGCCTACCAATTCTCACCTACCGAATCATACGAAGATCTGTCCGGTTTTTATCGAGAAGT GGAACAACAAGGGTATAAAATAAGCTACAAAAATATTGCAGCGTCCTTCATAGATACATTGGTCGCGGAGGGTAAG CTCTACTTTTTTCAAATTTACAACAAGGACTTTICACCCTATAGCAAGGGTACCCCCAACATGCACACACTGTACT GAAAAAATCTATTGAGTATTCACAGGAGAAATTGCAGAAAGGACACCATCACGAGAIGCTGAAAGACAAGTTCGCG TATCCTATTATAAAAGACAGGCGATTOGCGITTGATAAATTCCAGTTTCACGTCCCTATCACGCTTAATTTCAAGG CAGAAGGGAACGAAAACATTACCCCTAAGACATTCGAATACATTAGGAGCAACCCAGATAACATTAAGGTGATTGG AATCGATAGGGGTGAACGACACTTGCTGTACCTTTCACTCATCGATGCTGAGGGTAAGATTGTTGAGCAATTTACG TTGAATCAAATCATCAATTCCTATAACGGAAAAGATCACGTTATTGATTATCACGCTAAACTCGATGCTAAAGAAA AGGACAGAGATAAAGCCAGGAAAGAGTGGGGTACAGTTGAAAATATTAAAGAACTTAAGGAAGGGTACTTGTCACA TOTTATTCACAAGATTGCAACCOTCATAATTGAGCACGGGGCTGTCGTGGCTATGGAAGACCTCAACTTTGGCTTT AAGCGGGGACGATTTAAAGTTGAGAAGCAGGTATACCAAAAATTCGAGAAGGCGCTGATTGATAAGCTCAATTATC TCGTGGACAAGAAGAAGGAACCCCATAAGCIGGGGGGACTCCTTAATGCCCTGCAGTIGACTTCAAAATTCCAATC CTTCGAAAAAATGGGTAAGCAGAACGGATTTTTGTTTTACGTACCCGCTTGGAACACCTCAAAAATTGACCCGGTT ACCGGCTTCGTGAATCTCTTTGACACGCGATACGCTTCAGTTGAAAAGTCCAAGGCTTTTTTCACGAAGTTCCAGA GTATTTGCTACAATGAAGCTAAAGACTATTTTGAGCTGGTATTCGATTACAACGACTTTACGGAGAAAGCCAAGGA GACTCGCAGTGAGTGGACCCTTTGTACTTATGGTGAGAGGATCGTATCATTCCGCAACGCCGAGAAGAACCACCAA TOGGACTCAAAGACGATACATOTTACCACAGAATTTAAGAATCTTTTCGGGGAGCTGCATGGCAATGACGTAAAGG AATATATOOTCGAGCAGAACTCAGTCGAATTTTTCAAGAGTCTTATATACCTCTTGAAAATAACACTCCAGATGCG GAACAGCATCACGGGGACCGATATCGACTACCTTGTTTCACCCGTTGCCGATGAAGCCGGTAACTTCTACGACAGT CGCAAGGCGGATACATCACTTCCTAAAGACGCCGACGCAAACGGTGCTTATAATATAGCCCGCAAAGGGCTCATGT TGATGCACCGAATCCAAAAIGCTGAAGATTTGAAAAAAGTTAACCTTGCTATAAGCAACCGAGACIGGCTGCGGAA CGCACAGGGTOTCGACAAATGA SEQ ID NO: 9 ART2_Optimized_2 ATGTTGTCCAATTTTACTAATCAGTACCAGCTTAGCAAAACACTTCGCTTCGAGTTAAAGCCTGTTGGTGACACGC TTAAACACATTGAAAAGTCGGGACTGATCGCACAGGATGAGATTCGCTCACAGGAATATCAGGAGGTAAAGACCAT TATCGACAAGTATCATAAAGCCTTCATTGATGAAGCATTGCAGAATGTTGTGCTGTCAAACCTGGAAGAATATGAA GCGTTATTTTTCGAACGTAACCGCGACGAAAAGGCGTTTGAGAAACTTCAAGCCGTACTGCGTAAGGAGATCGTGG CCCACTTTAAGCAGCACCCTCAGTATAAAACACTGTTCAAAAAGGAGTTGATTAAAGCTGATCTGAAGAACTGGCA GGAGTTATCGGATGCAGAGAAAGAGCTTGTAAGCCATTTTGACAACTTCACCACGTATTTCACCGGCTTTCATGAA AACCGTGCGAATATGTATACCGATGAAGCAAAACATTCTTCAATTGCTTACCGCATCATCCATGAAAACCTTCCAA TTTTTCTTACAAACAAGAAACTTTTTGAAACAATTAAACAAAAGGCGCCGCACCTGGCGCAAGAAACCCAGGATGC CCTGTTAGAGTATTTATCAGGCGCTATTGTAGAAGATATGTTTGAGCTGAGTTATTTTAACCACTTGCTGAGTCAA ACGCATATCGACCTTTATAATCAAATGATTGGGGGCGTGAAACAGGATTCGTTAAAAATCCAAGGACTTAACGAGA AGATCAATTTGTACCGCCAGGCGAACGGGCTGTCAAAACGCGAGTTGCCAAATTTGAAACCGTTGCATAAACAGAT TTTATCCGACCGCGAGACGTTGTCGTGGTTACCCGAATCCTTTGAGTCCGACGAAGAATTGATGCAAGGTGTTCAA GCTTATTTTGAATCGGAGGTCCTGGCCTTTGAATGCTGCGATGGGAAGGTAAACCTGTTGGAGAAGTTGCCAGAAC TTCTGCACCAAACCCAGGACTATGATTTCAGCAAGGTATACTTCAAAAACGACCTGGCGTTAACTGCTGCCTCTCA GGCCATTTTCAAAGATTACCGCATTATTAAGGAGGCCCTGTGGGAGGTGAACAAACCAAAAAAGAGTAAGGATTTG GTAGCAGATGAGGAAAAATTCTTCAATAAGAAAAATAGTTATTTCAGCATCGAACAAATTGACGGTGCCTTAAACT CAGCCCAATTGTCGGCTAATATGATGCATTATTTTCAGTCGGAGTCAACGAAAGTCATCGAACAGATTCAGCTGAC CTATAATGATTGGAAGCGCAACTCATCTAATAAGGAATTGCTGAAGGCCTTCCTGGATGCGTTACTGTCGTACCAG CGCCTTCTTAAGCCGTTAAACGCCCCGAATGACTTAGAGAAGGATGTAGCGTTCTACGCCTATTTCGACGCGTATT TCACATCTCTTTGTGGGGTTGTGAAGTTATATGATAAAGTCCGTAACTTTATGACCAAGAAACCATATTCACTGGA AAAGTTCAAGCTGAATTTTGAGAATTCGACGTTGTTAGATGGCTGGGATGTGAACAAGGAGTCTGACAACACAGCT ATTTTATTTCGCAAAGAGGGTCTTTACTATCTTGGAATCATGAATAAGAAGTATAACAAGGTCTTTCGCAACATCA GTTCCAGTCAGGACGAGGGATACCAGAAGATCGATTACAAATTGTTACCAGGAGCTAATAAGATGTTGCCCAAAGT GTTTTTCTCGGATAAGAACAAAGAATACTTCAAGCCTAACGCCAAACTGTTGGAACGCTATAAGGCGGGAGAACAT AAGAAAGGTGATAATTTTGACTTAGATTTTTGTCATGAGCTTATCGACTTTTTCAAGACATCGATTGAAAAACATC AGGATTGGAAGCATTTTGCCTACCAGTTCTCCCCCACAGAGTCGTACGAGGACCTGAGTGGGTTCTATCGCGAAGT TGAACAACAAGGATATAAAATTTCCTACAAAAATATCGCGGCGAGCTTTATCGATACACTGGTCGCGGAGGGGAAA CTTTATTTCTTCCAGATCTATAACAAAGACTTCTCACCATATTCTAAGGGCACTCCGAATATGCACACCTTGTATT GGCGCGCACTGTTCGATGAGAAGAACTTGGCTGATGTGATCTATAAACTGAATGGTCAGGCGGAAATTTTCTTTCG CAAAAAATCCATCGAATATTCGCAGGAAAAGCTTCAGAAAGGTCACCACCATGAAATGTTGAAGGATAAGTTCGCC TACCCCATTATTAAGGATCGTCGTTTTGCTTTCGACAAATTCCAATTCCACGTGCCAATCACATTGAATTTTAAAG CTGAGGGCAATGAGAACATCACGCCAAAAACGTTTGAGTATATCCGCTCAAATCCAGATAACATCAAGGTGATCGG GATCGATCGTGGAGAGCGTCACCTTCTGTATTTGTCGTTGATCGACGCGGAGGGCAAGATCGTGGAGCAATTTACG CTTAACCAGATTATTAATAGCTATAATGGTAAGGACCACGTCATTGATTACCATGCCAAGCTGGATGCTAAGGAGA AGGACCGCGACAAGGCGCGCAAGGAATGGGGAACAGTCGAGAATATCAAAGAGCTGAAAGAGGGGTACTTATCTCA TGTCATTCACAAAATCGCCACGTTAATTATCGAGCATGGGGCCGTGGTAGCAATGGAGGATCTGAACTTTGGCTTC AAACGTGGTCGCTTTAAAGTGGAGAAGCAGGTATACCAAAAATTTGAAAAAGCACTTATCGACAAACTTAACTACC TGGTGGACAAAAAGAAAGAACCACATAAATTAGGCGGCCTGTTGAACGCCCTGCAACTGACCTCTAAATTTCAGTC CTTCGAGAAAATGGGTAAACAGAATGGGTTTTTGTTCTACGTTCCCGCGTGGAACACATCGAAAATTGATCCAGTT ACAGGGTTTGTCAACCTTTTTGATACACGCTATGCAAGCGTGGAAAAAAGTAAAGCCTTCTTCACCAAGTTTCAGT CCATCTGCTACAATGAAGCCAAAGACTATTTTGAACTGGTCTTTGATTACAACGACTTTACGGAGAAAGCAAAAGA AACCCGTTCCGAGTGGACGCTTTGCACGTATGGGGAACGCATTGTGTCGTTTCGTAACGCTGAGAAGAACCACCAG TGGGACTCTAAGACGATCCACCTTACGACGGAATTCAAAAATCTTTTTGGAGAATTACATGGTAATGACGTTAAAG AGTATATTCTGGAGCAGAATTCGGTTGAATTCTTTAAGAGCCTGATCTATTTGTTGAAGATCACCCTTCAGATGCG CAATTCCATTACAGGTACAGATATTGACTATTTGGTCAGTCCGGTAGCGGACGAAGCGGGGAATTTTTATGATTCC CGCAAAGCAGATACTAGTCTTCCTAAGGACGCTGATGCAAACGGAGCATATAACATCGCCCGTAAAGGACTTATGT TAATGCATCGTATTCAAAATGCAGAGGATCTTAAGAAAGTGAATCTTGCCATCAGTAATCGCGATTGGTTACGCAA CGCACAGGGCCTGGACAAGTGA SEQ ID NO: 10 ART2_Optimized_3 ATGCTGTCGAACTTCACGAATCAATATCAGCTTAGTAAAACGTTACGCTTCGAGTTAAAACCAGTTGGTGATACTT TAAAACATATTGAGAAGAGTGGCCTGATTGCACAGGACGAGATTCGCTCTCAGGAGTACCAGGAAGTTAAGACAAT CATTGATAAATATCACAAGGCTTTCATTGATGAGGCATTACAAAACGTTGTACTTTCTAACCTGGAAGAGTATGAG GCTTTGTTTTTTGAACGTAACCGCGACGAGAAGGCTTTCGAGAAGCTGCAAGCAGTGTTACGCAAAGAGATCGTCG CGCATTTTAAGCAACACCCGCAGTATAAGACATTGTTCAAGAAAGAATTAATCAAAGCAGACCTGAAAAATTGGCA GGAGCTTTCTGACGCTGAGAAGGAGCTGGTCAGCCACTTTGACAATTTCACTACATATTTCACGGGATTCCATGAG AACCGTGCTAACATGTACACGGATGAAGCCAAACATAGTTCTATTGCTTACCGTATCATTCACGAGAATCTGCCAA TCTTTTTGACTAACAAAAAGTTGTTCGAGACGATCAAGCAAAAGGCACCGCACCTGGCGCAAGAGACCCAAGACGC CTTGTTAGAGTATTTGTCCGGAGCCATCGTCGAGGACATGTTTGAATTGTCTTATTTCAATCATCTTCTTAGTCAA ACCCACATCGATTTGTATAATCAAATGATTGGTGGCGTAAAGCAGGATTCGTTAAAAATCCAGGGTCTTAATGAAA AAATCAACCTGTATCGTCAAGCGAACGGATTATCTAAACGCGAACTTCCGAATCTGAAACCACTTCATAAGCAAAT CTTGTCTGACCGCGAGACTCTGAGCTGGTTACCCGAGTCGTTCGAGAGCGATGAAGAGTTGATGCAGGGGGTACAG GCATACTTCGAGTCGGAGGTCTTAGCATTTGAGTGCTGCGACGGAAAGGTGAATCTTCTGGAAAAATTACCGGAGT TGCTTCACCAAACTCAGGACTACGACTTTTCCAAAGTCTATTTCAAAAACGACTTGGCTTTGACCGCAGCGAGCCA AGCAATTTTCAAGGATTATCGTATTATCAAGGAGGCACTTTGGGAAGTCAACAAGCCCAAAAAGAGTAAAGACCTG GTCGCTGATGAGGAAAAATTTTTCAATAAGAAGAATAGCTACTTCTCTATTGAGCAAATTGACGGGGCTCTTAACT CCGCGCAGCTTTCAGCGAACATGATGCATTATTTTCAGTCGGAGTCTACTAAAGTAATCGAGCAGATCCAGTTAAC CTACAACGACTGGAAGCGCAACAGTAGTAACAAGGAGTTACTTAAGGCGTTTTTGGATGCCTTATTATCCTACCAA CGTCTGTTAAAGCCCTTAAACGCACCTAACGACCTGGAAAAGGATGTAGCATTCTACGCTTACTTCGATGCTTATT TCACCAGCCTTTGTGGAGTTGTGAAGCTGTACGATAAAGTACGTAATTTTATGACTAAGAAACCGTACAGTTTGGA GAAGTTTAAGCTGAATTTTGAAAACAGCACGCTGTTGGATGGTTGGGACGTCAACAAGGAGTCAGACAACACCGCC ATCTTATTTCGCAAGGAAGGTTTATATTACCTGGGTATTATGAATAAGAAGTACAACAAAGTATTCCGCAACATTA GTTCTAGCCAAGATGAGGGCTATCAAAAGATCGATTACAAACTGTTGCCGGGTGCAAACAAAATGCTTCCAAAGGT CTTTTTCTCTGATAAAAACAAGGAATACTTTAAACCTAATGCTAAACTTTTAGAACGCTACAAAGCCGGCGAGCAC AAAAAGGGCGACAACTTCGATTTAGACTTCTGCCACGAGTTGATCGACTTCTTCAAGACGTCTATTGAGAAACACC AAGATTGGAAACATTTCGCATATCAATTTTCGCCTACTGAGAGTTACGAAGATCTGTCCGGTTTCTACCGCGAAGT CGAGCAACAGGGCTACAAAATTAGCTACAAAAATATTGCGGCGTCTTTCATCGACACGCTGGTGGCTGAAGGAAAG CTGTATTTTTTTCAAATCTATAACAAGGACTTCTCTCCATATAGCAAAGGTACCCCGAACATGCATACACTGTACT GGCGCGCTCTTTTCGACGAAAAGAACCTTGCAGACGTAATCTACAAGCTGAACGGTCAAGCTGAAATTTTTTTCCG TAAGAAGTCAATCGAATACAGCCAAGAAAAATTACAGAAAGGCCACCATCATGAAATGTTGAAAGATAAATTTGCA TACCCAATTATCAAAGATCGTCGCTTCGCTTTCGATAAATTCCAGTTCCATGTTCCCATTACCCTGAACTTTAAGG CGGAGGGGAACGAAAACATTACCCCTAAAACCTTCGAGTACATTCGTTCCAACCCGGACAATATCAAGGTTATCGG CATCGACCGCGGTGAACGCCATCTGTTATATCTTAGCTTGATCGATGCGGAAGGTAAGATTGTCGAGCAATTCACC CTTAACCAGATCATTAACTCATATAATGGTAAGGACCACGTAATCGACTATCATGCAAAGCTTGACGCCAAGGAGA AGGATCGCGACAAGGCGCGTAAAGAATGGGGCACAGTTGAGAACATTAAGGAGCTGAAAGAAGGTTACTTAAGTCA TGTCATTCACAAAATTGCAACACTGATCATCGAACATGGTGCCGTGGTCGCAATGGAGGACCTGAATTTTGGATTC AAGCGCGGTCGCTTTAAGGTGGAAAAACAAGTCTATCAAAAATTTGAAAAAGCTTTAATTGATAAACTTAACTACC TTGTTGACAAGAAAAAGGAGCCTCACAAATTAGGTGGGCTTCTGAATGCGCTGCAATTAACGTCCAAGTTTCAATC CTTCGAAAAAATGGGAAAACAGAATGGTTTTTTATTCTATGTCCCGGCTTGGAACACAAGTAAAATTGATCCTGTT ACCGGCTTCGTGAATTTGTTCGATACCCGCTACGCGAGCGTAGAAAAATCTAAAGCATTTTTCACCAAATTTCAGA GTATCTGCTATAATGAGGCAAAGGATTATTTTGAATTGGTTTTCGACTATAATGATTTTACAGAAAAAGCTAAAGA GACTCGTTCTGAGTGGACCTTGTGTACGTATGGTGAACGTATCGTAAGCTTCCGCAACGCTGAAAAAAATCACCAG TGGGACTCTAAAACGATTCATTTGACAACCGAGTTTAAAAACCTTTTCGGAGAATTGCACGGTAACGACGTTAAGG AATATATCTTAGAACAAAATTCGGTCGAATTTTTCAAGTCCCTTATCTATCTTTTGAAAATCACTCTTCAGATGCG CAATTCGATCACAGGGACCGATATCGATTATCTTGTTTCACCTGTGGCTGACGAAGCAGGCAACTTTTACGACAGC CGCAAGGCCGACACTAGCTTACCGAAAGACGCAGATGCTAACGGCGCCTACAATATCGCTCGCAAAGGTCTTATGC TTATGCATCGCATTCAAAACGCTGAGGACTTAAAGAAGGTTAATTTAGCGATTTCTAATCGTGACTGGTTGCGTAA CGCGCAAGGGCTGGACAAGTGA SEQ ID NO: 11 ART3 ATGATCGACTTAAAACAATTTATTGGCATATATCCTGTATCAAAGACCTTGCGCTTTGAGTTGAGACCTG TTGGTAAGACACAAGAGTGGATAGAAAAGAATAGAGTTCTTGAAGGAGATGAACAGAAGGCCGCAGATTA CCCTGTGGTTAAGAAACTTATAGATGATTACCATAAAGTATGCATTCACGACTCCTTAAATCACGTTCAC TTCGATTGGGAGCCTTTGAAAGATGCTATCGAAATTTTCCAGAAAACAAAGAGTGACGAGGCTAAGAAAC GACTTGAGGCAGAGCAGGCTATGATGCGTAAAAAGATAGCTGCTGCAATCAAGGACTTTAAGCATTTCAA GGAGTTGACAGCGGCAACTCCCAGCGATTTGATTACCTCTGTTCTTCCTGAATTCAGCGATGATGGGTCG TTAAAATCCTTTCGCGGTTTTGCAACCTATTTCAGTGGGTTCCAAGAGAATAGAAATAATATTTATAGTC AGGAGGCTATTAGTACGGGAGTACCTTATAGACTGGTTCATGATAACTTTCCTAAGTTCCTTTCTGATTT GGAAGTGTTTGAAAGGATCAAGAGCACTTGTCCAGAAGTTATCAATCAGGCATCAGCAGAGTTACAGCCC TTCTTAGAAGGAGTGATGATAGACGACATTTTCTCGCTCGACTTCTATAATTCTCTGTTGACTCAGAATG GTATAGATTTCTTTAATCAAGTAATAGGCGGCGTAAGCGAGAAGGACAAGCAGAAGTATCGTGGTATTAA CGAGTTCTCAAACCTTTATCGTCAACAGCATAAAGAAATTGCAGCATCGAAGAAGGCTATGACAATGATA CCATTATTCAAGCAGATATTATCTGATCGTGATACTTTATCTTATATTCCTGCTCAGATAAGAACAGAAG ACGAATTGGTATCTTCTATCACTCAGTTCTATGACCATATCACCCATTTCGAGCATGATGGAAAAACCAT CAATGTGTTATCAGAAATAGTGGCTCTGTTGGGTAAGTTGGATACTTACGATCCTAATGGTATTTGTATA ACCGCCCGCAAGTTGACAGATATTTCACAAAAGGTATATGGAAAGTGGAGTGTTATCGAGGAAAAAATGA AAGAGAAGGCTATCCAGCAGTATGGCGATATATCTGTAGCCAAGAATAAGAAAAAGGTAGATGCTTTTCT TTCGCGTAAGGCCTATAGCTTGTCTGATTTGTGCTTTGATGAAGAAATTAGTTTCTCACGCTATTACTCT GAATTACCCCAAACTTTAAATGCAATTAGCGGCTATTGGCTGCAGTTTAACGAGTGGTGTAAGAGTGATG AAAAGCAGAAGTTCCTGAACAACCAAACAGGCACGGAGGTGGTGAAAAGTCTTTTGGATGCCATGATGGA ATTATTCCATAAGTGCTCTGTCCTGGTAATGCCGGAAGAGTACGAGGTAGACAAGAGTTTCTATAATGAA TTCCTCCCTCTCTATGAAGAACTTGATACGCTCTTCCTGTTATATAACAAGGTGAGAAATTATCTCACTC AAAAGCCATCCGACGTTAAGAAGTTTAAGTTGAATTTTGAGTCGCCTTCATTGGCTAGTGGATGGGACCA GAATAAGGAAATGAAGAATAATGCGATTCTTCTTTTCAAAGATGGTAAGTCGTATTTAGGCGTATTAAAT GCAAAGAATAAAGCCAAGATAAAAGATGCTAAGGGCGATGTGTCGTCTTCTTCCTATAAAAAGATGATTT ACAAGCTTCTATCTGATCCTTCAAAGGATTTACCTCATAAAATATTCGCAAAAGGAAATCTTGATTTCTA CAAGCCTTCAGAGTATATTTTAGAAGGAAGAGAGTTGGGTAAATACAAGAAAGGTCCAAACTTTGACAAG AAGTTCCTTCATGACTTTATCGATTTCTACAAGGCCGCAATTAGTATTGATCCAGATTGGAGCAAATTCA ACTTCCAGTATTCCCCTACAGAATCATACGATGATATTGGCATGTTCTTTAGCGAAATCAAGAAGCAGGC TTACAAGATTCGTTTTACTGATATCTCAGAAGCTCAGGTGAACGAGTGGGTTGATAATGGCCAGTTATAT CTGTTCCAGCTCTATAATAAGGACTATGCCGAAGGTGCGCATGGCCGTAAGAATCTGCATACACTCTACT GGGAGAATCTGTTTACAGACGAGAACCTCAGCAACCTAGTGCTTAAATTGAATGGTCAGGCTGAATTGTT CTGTCGTCCTCAAAGTATCAAGAAACCTGTTTCACACAAGATTGGTTCGAAGATGCTGAATCGCAGGGAT AAGAGCGGAATGCCCATACCAGAATCTATTTATCGCAGCCTGTATCAGTATTATAATGGCAAGAAAAAGG AAAGTGAACTGACAGTTGCTGAAAAACAGTATATAGATCAGGTGATTGTGAAGGATGTCACTCACGAAAT TATCAAAGACCGCAGATATACCAGACAGGAGTACTTCTTCCATGTGCCACTGACATTCAATGCCAATGCT GATGGTAATGAGTATATCAACGAACATGTACTGAACTATCTGAAAGATAATCCTGACGTAAATATTATAG GTATCGACCGTGGTGAGCGTCATCTGATTTACCTTACATTGATCAATCAGCGTGGAGAAATTCTAAAGCA GAAGACTTTTAACGTGGTGAATAGCTATAACTATCAGGCTAAGTTGGAACAACGAGAAAAGGAACGTGAT GAGGCTCGTAAGAGTTGGGATAGTGTAGGTAAGATAAAAGACCTGAAAGAGGGTTTCCTCTCTGCCGTTA TCCATGAGATAACCAATATGATGATTGAAAACAATGCCATCGTGGTGCTTGAGGACTTGAATTTCGGATT CAAACGTGGACGCTTCAAGGTGGAGCGCCAGGTGTATCAGAAGTTTGAGAAGATGCTGATTGATAAACTG AATTATCTGTCATTCAAGGATCGCGAGGCTGGCGAAGAGGGTGGTATACTCAGAGGCTACCAGATGGCAC AGAAGTTTATAAGTTTCCAGCGTCTTGGTAAGCAGAGTGGCTTCTTGTTCTACATCCCAGCTGCTTATAC CTCAAAGATAGATCCTGTATCAGGTTTCGTTAATCATTTCAACTTCAGCGATATCACTAATGCCGAGAAG CGTAAGGACTTCTTGATGAAGATGGATCGCATTGAGATGAAGAATGGAAATATTGAATTTACATTCGACT ATCGCAAGTTTAAGACATTCCAGACTGACTATCAGAACGTTTGGACTGTTAGCACTTTCGGAAAGCGAAT TGTGATGCGAATAGACGAAAAAGGATATAAAAAGATGGTAGATTACGAACCAACAAACGATATTATCAAA GCTTTTAAGAATAAAGGCATCCTGTTGTCGGAAGGTTCTGATTTAAAAGCTCTGATTGCAGAGATTGAAG CCAACGCAACTAATGCCGGCTTCTATAGCACACTGCTCTATGCTTTCCAAAAAACTCTGCAGATGCGTAA TAGTAATGCTGTAACGGAAGAAGATTATATCCTCTCTCCTGTAGCTAAAGATGGACATCAATTCTGTAGT ACTGATGAGGCAAACAAGGGCAAAGATGCTCAAGGCAACTGGGTATCAAAACTGCCTGTAGATGCTGATG CTAATGGTGCATATCACATCGCTTTAAAGGGACTTTATTTGCTCAGAAATCCTGAAACAAAGAAAATAGA AAACGAAAAATGGCTCCAGTTTATGGTTGAGAAACCGTATTTGGAGTAA SEQ ID NO: 12 ART3_Optimized_1 ATGATTGATTTAAAGCAATTCATCGGAATCTATCCAGTGTCCAAGACCTTGCGTTTTGAATTACGCCCTGTAGGGA AGACCCAAGAGTGGATCGAGAAGAATCGTGTGTTGGAAGGCGACGAGCAAAAAGCTGCAGATTATCCGGTAGTAAA AAAATTAATCGATGACTACCATAAAGTTTGCATTCATGACAGCCTTAATCATGTGCACTTCGATTGGGAGCCGTTG AAGGATGCCATCGAAATCTTCCAAAAAACGAAAAGCGACGAGGCCAAAAAGCGTTTAGAGGCCGAGCAAGCAATGA TGCGTAAAAAAATCGCGGCTGCAATTAAGGATTTTAAGCACTTTAAAGAATTAACTGCAGCAACGCCTTCGGATCT TATCACCTCGGTGTTACCAGAGTTTTCAGACGATGGAAGTTTAAAGTCATTTCGTGGGTTCGCTACATACTTTTCG GGCTTTCAGGAAAATCGTAACAATATTTACAGTCAGGAAGCAATCTCAACTGGAGTTCCGTACCGTTTAGTGCATG ACAACTTTCCAAAGTTCCTGTCCGACCTGGAAGTCTTTGAGCGCATCAAGTCAACTTGTCCGGAAGTTATTAACCA GGCCAGTGCGGAATTACAACCGTTCTTGGAAGGGGTTATGATTGATGATATTTTCAGTCTTGATTTCTATAACAGC TTATTGACCCAGAATGGCATTGATTTCTTTAATCAAGTCATCGGAGGTGTTAGCGAAAAAGATAAACAAAAGTACC GTGGAATTAACGAATTCTCAAACTTATATCGCCAGCAACACAAAGAGATTGCAGCTAGTAAGAAGGCTATGACTAT GATCCCCCTGTTCAAGCAAATTTTGTCCGATCGTGACACGTTGTCGTACATTCCTGCCCAGATCCGCACCGAAGAC GAGCTTGTGTCTAGCATCACGCAATTTTACGACCACATCACCCATTTCGAACATGACGGGAAGACCATTAACGTGT TGTCAGAGATTGTTGCACTTCTTGGGAAACTGGATACATACGACCCTAATGGTATCTGTATCACTGCCCGCAAGTT GACCGATATCTCGCAGAAGGTCTACGGTAAATGGTCTGTCATTGAGGAAAAGATGAAAGAAAAAGCGATTCAACAG TACGGTGACATTTCCGTGGCGAAAAATAAAAAAAAAGTCGACGCCTTCTTATCACGCAAAGCTTACTCTCTGTCTG ATTTATGCTTCGATGAGGAAATCTCGTTCTCACGTTATTACTCGGAGTTACCCCAAACGCTTAACGCTATCTCGGG ATACTGGCTGCAGTTTAATGAGTGGTGTAAGTCCGACGAAAAGCAAAAATTTTTAAATAATCAGACAGGGACTGAA GTAGTGAAGTCCCTTTTGGACGCAATGATGGAGTTGTTTCACAAGTGCTCAGTCTTGGTAATGCCAGAAGAATACG AGGTCGACAAATCATTCTACAATGAGTTTTTACCCCTTTACGAAGAACTGGACACTTTATTCCTGTTGTATAATAA GGTTCGCAATTACCTGACACAGAAACCGTCTGACGTGAAAAAATTCAAATTGAACTTTGAGAGTCCAAGTTTGGCT AGCGGATGGGACCAGAATAAGGAGATGAAGAATAATGCGATTTTGTTATTCAAGGATGGAAAGTCGTATCTTGGTG TCTTAAATGCTAAAAATAAGGCCAAGATTAAAGACGCCAAGGGGGACGTTTCTAGTTCCTCATACAAAAAGATGAT TTACAAACTTCTGTCTGATCCGAGTAAGGATCTGCCCCATAAGATTTTCGCCAAAGGCAATCTGGACTTTTACAAG CCAAGTGAGTATATTTTAGAGGGACGCGAGTTAGGTAAATATAAAAAAGGACCCAACTTCGATAAAAAGTTCCTTC ATGATTTCATCGACTTCTACAAAGCAGCCATCTCGATCGACCCGGATTGGAGCAAATTCAACTTTCAATACTCGCC TACCGAATCCTATGATGACATTGGCATGTTTTTCTCCGAAATCAAGAAACAAGCTTACAAAATTCGCTTTACGGAC ATTTCAGAAGCACAGGTTAATGAATGGGTAGACAACGGTCAGTTGTATTTATTCCAATTGTATAATAAAGATTATG CGGAGGGTGCTCATGGGCGTAAGAACCTTCATACATTGTATTGGGAGAATCTGTTCACAGACGAGAATCTTAGCAA TTTGGTGTTGAAGTTGAATGGCCAAGCTGAGTTGTTTTGTCGTCCCCAAAGCATTAAAAAACCAGTTTCGCACAAG ATTGGATCGAAAATGCTTAACCGTCGCGATAAGTCCGGAATGCCTATCCCGGAAAGCATTTATCGCTCCCTTTACC AATACTACAATGGCAAAAAAAAAGAGTCGGAACTTACCGTCGCTGAAAAGCAATACATTGACCAGGTAATCGTAAA GGATGTGACGCACGAAATCATCAAAGACCGCCGTTATACGCGTCAAGAGTACTTCTTTCACGTACCATTAACCTTC AATGCCAACGCGGATGGGAATGAGTATATTAATGAGCATGTGCTTAACTACCTTAAGGACAACCCGGACGTAAACA TCATTGGAATTGACCGTGGGGAACGTCATTTAATTTATTTAACCTTGATTAATCAACGTGGGGAGATCCTGAAACA GAAGACGTTCAACGTTGTCAATAGCTACAATTATCAAGCAAAACTGGAGCAGCGTGAGAAAGAGCGTGACGAGGCT CGCAAGTCGTGGGATTCAGTCGGCAAGATTAAAGACTTAAAAGAGGGATTTTTGTCAGCCGTAATTCACGAAATTA CCAACATGATGATCGAAAATAATGCCATTGTCGTGCTTGAGGATTTGAACTTCGGTTTCAAGCGCGGACGTTTCAA AGTAGAACGTCAGGTGTATCAAAAGTTTGAAAAAATGCTGATCGATAAACTGAATTATTTATCGTTCAAAGACCGC GAAGCGGGAGAAGAAGGTGGAATTCTGCGCGGATATCAGATGGCCCAGAAATTCATTAGTTTTCAACGCTTAGGGA AGCAATCTGGCTTTCTGTTTTACATCCCAGCGGCCTACACATCTAAAATCGATCCCGTATCCGGGTTCGTCAACCA TTTTAATTTTTCCGACATCACGAACGCGGAGAAGCGCAAGGACTTCCTGATGAAAATGGATCGTATCGAAATGAAA AATGGAAATATCGAGTTCACCTTTGATTATCGCAAGTTCAAAACCTTTCAGACAGATTACCAAAACGTATGGACAG TCAGTACCTTTGGAAAACGTATCGTCATGCGCATCGATGAAAAGGGATATAAGAAGATGGTTGATTATGAACCGAC GAATGATATCATCAAAGCATTTAAAAACAAAGGCATCTTACTTTCAGAGGGTTCCGACTTAAAGGCACTGATCGCT GAAATTGAGGCCAACGCCACAAACGCGGGTTTTTATTCCACATTACTGTATGCGTTCCAAAAAACGCTTCAGATGC GCAACTCGAATGCAGTTACCGAGGAGGATTACATCCTTTCTCCCGTGGCTAAAGACGGCCACCAGTTTTGTAGCAC GGATGAAGCCAATAAGGGCAAAGACGCCCAGGGAAACTGGGTATCAAAACTTCCAGTAGATGCCGATGCTAACGGC GCGTATCATATTGCACTGAAGGGATTATATTTGTTGCGCAACCCAGAAACCAAAAAGATCGAAAATGAGAAGTGGT TGCAGTTCATGGTGGAAAAGCCCTATTTGGAGTAA SEQ ID NO: 13 ART3_Optimized_2 ATGATTGATCTGAAGCAATTCATTGGGATTTACCCGGTGTCAAAAACGCTGCGTTTTGAGCTTCGCCCGGTCGGTA AAACACAGGAGTGGATCGAGAAAAATCGTGTTTTAGAAGGAGACGAGCAAAAAGCCGCAGATTACCCCGTAGTCAA GAAGCTTATTGATGATTACCACAAGGTCTGTATCCACGACAGCCTTAATCATGTCCACTTTGACTGGGAGCCCCTG AAGGACGCTATTGAAATCTTTCAAAAAACCAAGAGCGACGAAGCCAAGAAGCGCCTTGAAGCGGAGCAGGCTATGA TGCGCAAAAAGATTGCTGCGGCGATTAAGGATTTCAAGCATTTCAAAGAGCTGACCGCGGCTACTCCTAGCGATCT GATCACCTCTGTACTGCCTGAATTCTCAGACGATGGCTCATTAAAGTCCTTTCGTGGCTTCGCTACTTACTTCAGT GGATTTCAAGAGAACCGTAACAACATCTACTCGCAGGAGGCCATTTCTACCGGGGTGCCTTATCGTCTTGTTCACG ATAATTTCCCAAAATTTCTGTCGGATTTAGAGGTTTTTGAACGTATCAAAAGTACGTGCCCAGAGGTGATTAACCA AGCTTCTGCGGAACTGCAACCTTTCCTTGAGGGCGTCATGATCGATGATATTTTCAGCTTAGACTTCTATAACTCA CTGTTAACACAGAATGGAATCGACTTCTTTAACCAAGTGATTGGTGGCGTCTCAGAAAAGGACAAACAAAAATATC GCGGTATTAATGAGTTTAGTAATTTGTACCGCCAGCAGCACAAAGAAATCGCTGCGTCTAAAAAAGCCATGACGAT GATTCCGTTGTTCAAACAAATCCTGTCTGATCGTGACACTTTATCTTATATCCCAGCGCAAATTCGCACTGAGGAC GAATTGGTCAGCTCCATCACGCAGTTCTACGATCATATCACACACTTCGAACATGACGGTAAGACCATCAATGTGT TGTCCGAAATCGTGGCTTTGCTGGGTAAGCTGGACACCTACGACCCTAATGGCATCTGCATTACAGCTCGTAAGCT GACCGACATTTCTCAAAAGGTCTACGGTAAGTGGAGTGTCATCGAGGAAAAAATGAAGGAAAAAGCCATTCAGCAG TATGGTGATATTTCTGTGGCTAAAAACAAGAAGAAAGTCGATGCCTTTCTGTCACGTAAGGCTTACTCTTTGTCCG ATCTTTGCTTCGACGAGGAAATTTCATTCTCGCGCTACTATTCCGAATTACCTCAGACCCTGAATGCAATTTCCGG CTATTGGTTACAGTTCAATGAGTGGTGCAAAAGTGACGAAAAACAGAAGTTTTTAAACAATCAGACAGGGACGGAA GTGGTCAAGTCCTTGTTAGATGCAATGATGGAGTTGTTTCATAAGTGTTCTGTGTTGGTTATGCCGGAAGAGTATG AGGTTGATAAATCCTTTTACAATGAGTTCCTTCCGCTGTACGAGGAGCTGGACACGTTGTTTCTGTTATATAACAA GGTACGCAACTACCTTACTCAAAAGCCGTCCGATGTTAAGAAGTTCAAGCTGAATTTCGAATCACCTTCCCTTGCT AGTGGATGGGACCAGAACAAGGAGATGAAAAATAATGCCATCTTATTATTTAAGGACGGTAAGTCTTACTTGGGAG TGCTTAATGCTAAAAACAAAGCGAAGATTAAGGACGCGAAGGGGGATGTCTCATCAAGCTCTTACAAGAAAATGAT TTACAAGTTACTGTCCGACCCAAGCAAAGATCTTCCCCATAAGATCTTCGCAAAAGGAAATTTAGATTTTTATAAG CCGTCAGAGTACATTCTTGAAGGGCGCGAGCTGGGAAAGTATAAGAAGGGGCCGAATTTTGACAAAAAGTTTCTTC ATGATTTCATTGACTTCTACAAAGCGGCAATCTCCATTGATCCTGACTGGAGCAAATTTAACTTCCAGTACTCTCC TACAGAAAGTTATGACGACATTGGGATGTTCTTCTCAGAAATTAAAAAACAGGCATATAAAATCCGTTTTACAGAC ATTTCAGAGGCACAGGTTAATGAGTGGGTCGATAATGGCCAATTGTACTTGTTTCAACTTTACAATAAAGATTATG CAGAAGGTGCACACGGCCGCAAGAACCTTCATACGCTGTACTGGGAGAATCTTTTTACAGATGAAAACTTGTCAAA TCTTGTCCTTAAATTAAACGGACAAGCTGAGTTGTTCTGTCGTCCTCAGTCCATCAAAAAACCAGTCTCACATAAG ATCGGATCGAAGATGTTAAATCGCCGTGATAAATCCGGCATGCCGATCCCTGAGTCGATTTACCGCTCCTTGTATC AGTATTATAACGGTAAAAAAAAGGAGTCAGAGTTAACAGTTGCAGAGAAGCAATATATCGATCAAGTCATTGTCAA AGACGTGACACACGAGATCATCAAAGACCGCCGCTATACGCGTCAGGAATATTTCTTTCATGTCCCTTTGACCTTT AACGCCAATGCGGACGGAAACGAGTATATTAACGAGCACGTCCTGAATTATTTAAAAGACAACCCAGATGTCAACA TTATCGGGATTGACCGCGGAGAGCGCCACCTGATTTATTTAACTCTTATCAATCAACGCGGTGAGATTCTGAAGCA GAAGACGTTTAATGTTGTGAATAGCTATAATTATCAGGCAAAATTGGAACAGCGCGAGAAGGAACGTGACGAGGCT CGTAAGAGTTGGGACTCGGTAGGAAAGATTAAAGATTTGAAAGAAGGCTTTTTATCTGCAGTGATTCATGAGATTA CGAACATGATGATTGAGAATAATGCTATCGTTGTTTTAGAAGACTTAAATTTTGGATTTAAGCGTGGGCGTTTCAA GGTCGAGCGCCAAGTTTATCAGAAATTTGAAAAGATGTTAATTGACAAGTTGAACTACCTTTCCTTCAAAGATCGT GAAGCAGGTGAGGAGGGTGGCATTTTACGCGGGTATCAGATGGCTCAGAAGTTCATCTCTTTCCAACGCTTGGGGA AACAAAGCGGGTTCTTGTTCTATATTCCGGCAGCTTACACATCTAAGATTGATCCGGTATCTGGTTTCGTAAACCA TTTTAACTTTAGTGATATTACTAATGCCGAGAAACGTAAAGACTTTCTTATGAAAATGGATCGCATCGAGATGAAG AATGGTAATATTGAGTTCACCTTTGACTACCGCAAGTTCAAGACGTTTCAGACGGATTATCAAAATGTCTGGACTG TTAGTACATTTGGCAAACGTATTGTAATGCGCATCGACGAGAAGGGGTATAAGAAGATGGTGGATTATGAGCCGAC AAATGACATCATCAAGGCTTTTAAAAACAAAGGCATTCTTTTGTCTGAAGGATCCGATTTGAAAGCATTAATCGCC GAAATCGAAGCAAATGCCACCAATGCGGGATTCTACTCCACATTATTGTATGCCTTCCAAAAAACATTACAGATGC GTAACTCGAATGCAGTAACGGAAGAAGACTATATTCTTAGTCCCGTAGCCAAGGACGGACACCAATTTTGCAGCAC CGATGAGGCTAACAAAGGTAAGGACGCGCAAGGGAACTGGGTCAGTAAGTTACCGGTGGATGCCGACGCTAATGGA GCGTATCATATTGCTTTAAAAGGATTATACTTGTTACGCAATCCCGAAACCAAGAAAATTGAAAACGAAAAATGGT TACAGTTCATGGTAGAGAAGCCGTACCTTGAGTAA SEQ ID NO: 14 ART3_Optimized_3 ATGATCGACCTTAAACAGTTTATTGGTATTTATCCGGTGTCGAAAACGCTTCGTTTTGAGTTGCGTCCTGTTGGTA AAACTCAAGAATGGATTGAGAAGAACCGCGTTTTAGAGGGTGATGAACAAAAGGCGGCCGATTATCCTGTAGTAAA GAAACTGATCGATGACTATCACAAGGTGTGTATTCATGACAGTTTAAACCATGTACATTTCGATTGGGAGCCTTTG AAAGATGCGATTGAGATTTTCCAGAAGACAAAGTCAGACGAGGCGAAGAAACGCTTGGAAGCAGAGCAGGCTATGA TGCGCAAGAAGATCGCCGCCGCGATTAAAGACTTTAAACATTTTAAAGAGTTAACTGCTGCTACCCCTTCCGATCT GATCACGTCAGTGTTGCCCGAATTTTCTGACGACGGATCCTTGAAATCGTTTCGCGGTTTTGCAACATATTTCTCT GGCTTCCAGGAAAATCGTAACAATATTTATTCCCAAGAAGCTATCTCAACGGGTGTTCCTTATCGTCTTGTCCATG ACAACTTTCCAAAGTTTCTGAGTGATTTAGAAGTGTTCGAGCGCATCAAGTCAACGTGCCCAGAAGTGATCAACCA GGCCTCCGCGGAGTTGCAACCATTCTTAGAGGGAGTAATGATTGACGATATTTTCTCATTAGACTTCTATAATTCG CTGTTGACCCAAAATGGCATCGACTTCTTCAACCAGGTCATCGGAGGTGTGAGTGAAAAAGACAAGCAGAAGTATC GTGGAATTAATGAGTTCTCAAATCTGTATCGCCAGCAACACAAAGAGATTGCCGCAAGTAAGAAGGCTATGACAAT GATCCCCTTGTTTAAGCAGATCTTATCCGACCGTGACACACTTTCTTACATTCCTGCCCAAATTCGTACAGAAGAC GAATTGGTATCTAGCATCACGCAATTCTACGACCACATCACTCACTTCGAACACGACGGTAAAACGATCAATGTAT TAAGTGAGATCGTTGCGCTGTTGGGAAAACTTGACACTTACGACCCTAACGGCATTTGCATTACGGCACGTAAACT TACCGACATCTCGCAAAAGGTGTATGGGAAATGGTCCGTCATCGAGGAAAAAATGAAGGAAAAGGCGATTCAGCAG TATGGAGACATCTCTGTGGCTAAGAATAAGAAAAAGGTTGACGCTTTTTTGTCCCGCAAGGCGTACTCGTTGTCTG ATCTGTGTTTCGATGAAGAGATCTCCTTCTCACGTTATTATTCGGAGCTGCCCCAAACGTTGAATGCAATTTCTGG GTATTGGTTGCAGTTCAACGAGTGGTGTAAGAGCGACGAAAAGCAGAAATTTCTTAACAATCAGACAGGTACTGAG GTCGTTAAAAGCTTATTAGACGCGATGATGGAACTGTTCCACAAATGTTCGGTCTTAGTAATGCCTGAGGAATATG AGGTAGACAAATCATTTTATAATGAATTTCTTCCTCTTTATGAAGAATTGGATACCTTATTTTTGCTGTATAATAA AGTTCGTAATTACCTGACGCAGAAGCCCTCTGACGTAAAGAAATTCAAATTGAATTTTGAATCGCCTTCCTTAGCA TCGGGGTGGGATCAAAATAAAGAAATGAAAAACAACGCAATCTTATTATTTAAAGACGGAAAGTCATACTTGGGCG TGTTAAACGCCAAGAATAAGGCCAAAATTAAAGATGCAAAGGGCGATGTCTCATCGTCGTCCTACAAGAAGATGAT TTATAAACTTCTTTCTGATCCTAGCAAGGATTTACCGCATAAAATTTTCGCAAAGGGGAACTTAGATTTCTATAAA CCCTCGGAATATATTTTGGAAGGCCGTGAGTTGGGTAAATATAAAAAGGGACCCAATTTTGATAAAAAATTCCTGC ATGATTTCATCGACTTCTACAAGGCAGCTATTTCCATCGACCCAGACTGGTCCAAATTCAACTTCCAATACTCGCC AACGGAGTCTTACGACGATATCGGGATGTTTTTCTCGGAGATTAAGAAACAGGCCTATAAGATCCGCTTTACGGAT ATTTCCGAAGCACAAGTTAATGAGTGGGTGGACAACGGGCAGCTTTATCTTTTCCAGTTATACAACAAGGACTACG CGGAAGGGGCCCACGGCCGTAAGAACTTGCATACTTTATATTGGGAGAATTTGTTTACCGATGAGAACCTGAGTAA TTTGGTACTGAAGCTGAATGGCCAAGCAGAACTGTTTTGCCGTCCGCAAAGTATTAAGAAGCCAGTGTCGCACAAA ATTGGATCTAAGATGCTGAATCGTCGCGATAAGTCAGGAATGCCTATTCCAGAGTCCATCTATCGTTCGCTTTACC AGTACTACAATGGCAAAAAGAAAGAGTCTGAATTAACCGTGGCGGAAAAGCAGTATATTGATCAAGTAATTGTTAA GGATGTTACACACGAGATTATTAAGGATCGCCGCTACACACGTCAGGAATATTTCTTTCATGTCCCACTTACGTTC AATGCTAACGCAGATGGCAACGAGTATATTAACGAGCACGTGTTGAACTATCTTAAGGATAATCCGGATGTGAACA TCATTGGGATTGATCGTGGTGAGCGTCATTTGATCTATCTGACCTTGATTAATCAACGTGGTGAAATCTTGAAGCA GAAGACATTCAACGTTGTTAACAGTTACAATTACCAGGCGAAACTTGAGCAGCGTGAAAAGGAACGTGACGAGGCA CGTAAGTCGTGGGATAGTGTTGGAAAGATTAAAGACTTGAAGGAAGGTTTTTTGTCGGCGGTAATTCACGAGATCA CGAATATGATGATTGAGAACAACGCAATCGTAGTACTGGAAGATCTGAATTTTGGGTTTAAACGCGGGCGCTTTAA GGTGGAACGCCAAGTGTACCAGAAATTTGAGAAGATGCTTATTGATAAACTGAACTATTTATCGTTTAAGGACCGC GAAGCTGGAGAAGAAGGCGGCATTCTGCGTGGATACCAAATGGCGCAAAAATTTATCTCGTTCCAGCGTCTGGGCA AACAATCCGGCTTCCTTTTCTACATTCCCGCTGCTTACACATCAAAGATTGACCCTGTCTCGGGTTTCGTAAATCA TTTTAACTTCTCAGATATTACGAACGCTGAGAAACGCAAAGACTTTTTAATGAAGATGGACCGCATTGAAATGAAA AACGGTAATATCGAGTTCACCTTTGATTACCGCAAGTTCAAGACATTCCAGACCGACTACCAGAACGTCTGGACAG TATCCACTTTTGGGAAGCGTATTGTAATGCGTATCGACGAAAAGGGCTATAAAAAAATGGTCGATTATGAACCGAC AAACGACATCATTAAGGCTTTTAAGAATAAGGGTATTTTACTGAGTGAGGGCTCTGATTTGAAGGCTCTTATTGCT GAAATTGAGGCCAACGCTACGAACGCTGGATTTTATAGTACACTTCTTTACGCGTTCCAAAAAACTCTTCAGATGC GCAACAGCAACGCGGTGACAGAGGAAGACTATATTTTAAGTCCGGTAGCGAAAGATGGACATCAGTTCTGTTCTAC AGACGAGGCCAATAAGGGAAAGGACGCTCAGGGTAATTGGGTTTCGAAGCTGCCGGTTGACGCCGATGCTAACGGC GCGTATCACATCGCTTTAAAGGGATTATATCTTCTGCGTAATCCCGAGACAAAGAAGATCGAAAATGAAAAATGGT TACAATTTATGGTTGAAAAACCTTACTTGGAATAA SEQ ID NO: 15 ART4_WT ATGTCGTATAATAGAGAAAAAATGGAGGAGAAAGAATTGGGTAAAAATCAAAATTTTCAGGAATTTATTG GGGTATCACCACTTCAAAAGACTTTAAGAAACGAATTGATCCCAACAGAAACAACAAAGAAGAATATTGC TCAGCTTGATCTTTTGACTGAGGATGAAGTGCGTGCGCAAAATCGAGAGAAGCTGAAAGAAATGATGGAT GACTACTACCGGGATGTGATTGATAGTACGTTACGGGGGGAATTATTGATTGATTGGAGCTATTTATTTT CGTGCATGCGAAACCATCTAAGTGAGAATTCCAAAGAGTCAAAACGGGAATTGGAACGAACACAGGATTC TGTTCGTTCACAAATCCATGATAAGTTTGCTGAACGAGCGGATTTTAAGGATATGTTTGGAGCATCGATA ATAACAAAATTACTTCCGACATATATAAAGCAAAATTCAAAATATTCCGAGCGGTATGACGAGAGCGTGA AAATTATGAAACTGTATGGAAAATTCACAACATCGTTGACCGATTACTTTGAGACAAGAAAGAATATCTT TTCTAAAGAGAAAATATCCTCTGCCGTTGGATATCGAATCGTAGAGGAAAATGCTGAGATTTTCCTGCAG AATCAGAATGCTTACGACAGAATCTGTAAGATAGCGGGACTGGATTTACATGGATTGGATAATGAAATAA CAGCATATGTTGATGGAAAAACATTAAAAGAAGTATGTTCCGATGAAGGATTTGCAAAGGTGATTACACA AGGAGGGATTGATCGCTACAACGAGGCAATTGGTGCGGTAAATCAATATATGAATCTGTTATGCCAGAAG AATAAGGCATTAAAACCGGGACAATTTAAGATGAAGCGGCTACATAAACAGATTCTTTGCAAAGGAACAA CCTCTTTCGATATTCCAAAGAAGTTTGAAAATGATAAACAGGTGTATGACGCAGTTAATTCTTTTACAGA GATAGTAACGAAGAATAATGATTTGAAGCGACTGTTAAATATTACACAGAATGCAAATGATTATGACATG AATAAAATCTATGTAGTAGCCGATGCATATAGTATGATTTCACAGTTTATCAGTAAAAAATGGAATCTGA TTGAAGAATGCTTGCTGGATTATTATAGCGATAATTTGCCGGGAAAAGGAAATGCGAAAGAAAACAAAGT TAAAAAGGCGGTAAAGGAAGAAACGTATCGCAGTGTTTCACAGTTGAATGAAGTTATTGAGAAATATTAT GTGGAAAAGACCGGACAGTCAGTATGGAAAGTGGAAAGTTATATTTCTAGTCTGGCAGAAATGATTAAGC TGGAATTGTGCCACGAGATAGATAACGATGAGAAGCATAATCTGATTGAAGATGATGAGAAGATATCCGA GATTAAGGAACTGTTGGATATGTACATGGATGTATTTCATATTATAAAAGTGTTCCGGGTGAATGAAGTA TTGAATTTCGATGAAACCTTTTATTCGGAGATGGATGAGATCTATCAGGATATGCAGGAAATCGTTCCAT TATACAATCATGTTCGAAACTATGTTACACAGAAACCATATAAGCAGGAGAAATATCGTTTATATTTCCA CACTCCAACATTGGCAAATGGCTGGTCCAAGAGTAAGGAATATGACAACAACGCAATTATATTGGTGCGA GAAGATAAATATTATTTAGGTATTCTGAATGCGAAAAAGAAACCATCGAAAGAAATTATGGCGGGCAAAG AGGATTGTTCAGAACATGCATATGCAAAGATGAATTATTATTTGTTGCCGGGCGCGAACAAGATGCTTCC AAAAGTATTTTTATCTAAGAAAGGAATACAGGACTATCACCCATCATCATATATTGTTGAAGGATATAAT GAAAAGAAACATATTAAAGGTTCCAAGAATTTTGATATCCGGTTTTGTAGGGATTTGATTGACTACTTCA AGGAATGCATTAAAAAACATCCGGATTGGAATAAGTTTAACTTTGAATTTTCTGCGACAGAAACATATGA GGATATCAGTGTCTTTTATCGCGAAGTTGAAAAGCAAGGATATCGCGTAGAGTGGACGTATATCAATAGT GAAGATATTCAGAAACTGGAAGAAGATGGACAGTTGTTTTTATTTCAGATATATAACAAAGATTTTGCTG TGGGAAGTACAGGTAAACCAAATCTTCATACATTGTATCTGAAAAATCTGTTCAGCGAAGAAAATTTGCG GGACATTGTATTAAAACTAAATGGGGAAGCAGAAATATTCTTCCGTAAATCAAGTGTTCAAAAACCGGTG ATTCATAAGTGCGGCAGTATTTTAGTCAATCGTACCTATGAGATTACCGAGAGTGGAACAACACGGGTAC AATCAATTCCGGAAAGTGAATACATGGAATTATATCGCTACTTTAATAGTGAAAAGCAGATAGAATTATC AGATGAGGCAAAAAAATATTTGGACAAGGTGCAATGTAATAAGGCAAAGACAGATATTGTGAAAGACTAC CGATACACCATGGACAAGTTTTTTATTCATCTTCCGATTACGATTAATTTTAAGGTTGATAAGGGTAACA ATGTTAATGCCATTGCACAGCAATATATTGCAGAGCAGGAAGATTTGCATGTGATAGGAATCGATAGAGG AGAACGGAATCTGATTTACGTTTCTGTAATTGACATGTATGGCAGAATTTTAGAGCAGAAATCCTTTAAC CTTGTGGAACAGGTATCGTCGCAGGGAACGAAGCGATATTACGATTACAAAGAAAAATTACAGAACCGGG AAGAGGAACGGGATAAAGCAAGAAAGAGTTGGAAGACAATCGGCAAGATTAAGGAATTAAAAGAGGGGTA TCTGTCGTCAGTAATTCATGAGATTGCACAGATGGTCGTAAAGTATAACGCAATCATTGCAATGGAAGAT TTGAATTATGGATTTAAGCGGGGAAGATTCAAAGTAGAGCGCCAGGTATATCAGAAATTTGAAACGATGT TGATCAGTAAGTTGAATTATCTGGCAGATAAATCTCAGGCTGTGGATGAACCGGGAGGTATATTACGGGG ATATCAGATGACTTATGTGCCGGATAATATTAAGAATGTTGGAAGACAATGTGGAATAATCTTTTATGTG CCGGCAGCATATACCTCCAAGATTGATCCGACAACCGGATTTATCAATGCATTTAAGCGGGATGTGGTAT CAACAAATGATGCAAAAGAGAATTTCTTGATGAAGTTTGATTCTATTCAGTACGATATAGAAAAAGGCTT ATTTAAGTTTTCATTTGATTACAAAAATTTTGCCACACATAAACTTACACTTGCGAAGACAAAATGGGAC GTATATACAAATGGAACTCGAATACAAAACATGAAAGTTGAAGGACATTGGCTTTCAATGGAAGTTGAAC TTACAACGAAAATGAAAGAGTTGCTGGATGACTCGCATATTCCATATGAAGAAGGACAGAATATATTGGA TGATTTGCGGGAGATGAAAGATATAACAACCATTGTGAATGGTATATTGGAAATCTTCTGGTTGACAGTC CAGCTTCGGAATAGCAGGATAGATAATCCGGATTACGATAGAATTATCTCACCGGTACTGAATAATGATG GAGAATTTTTTGATTCTGATGAATATAATTCATATATTGATGCGCAAAAGGCACCGTTACCGATAGATGC CGATGCAAATGGCGCATTTTGCATTGCATTAAAAGGAATGTATACTGCCAATCAGATCAAAGAAAACTGG GTTGAAGGGGAGAAACTTCCGGCGGATTGCTTGAAGATCGAACATGCGAGTTGGTTAGCATTTATGCAAG GAGAAAGGGGATAG SEQ ID NO: 16 ART4_Optimized_1 ATGTCGTATAACCGTGAGAAGATGGAGGAAAAAGAGCTGGGTAAGAACCAAAATTTCCAAGAATTTATCGGTGTAA GTCCACTGCAAAAGACGCTTCGCAATGAGTTAATTCCGACTGAGACAACGAAGAAAAATATTGCTCAACTTGACTT ACTGACTGAGGACGAGGTCCGTGCGCAGAACCGTGAAAAGCTGAAAGAAATGATGGATGACTATTACCGCGATGTC ATTGATTCAACGCTTCGTGGCGAATTGTTAATTGATTGGAGTTACCTGTTCTCTTGCATGCGCAACCATTTAAGCG AAAACTCTAAGGAGTCGAAGCGTGAACTTGAACGCACTCAGGACAGTGTTCGCAGTCAGATCCACGATAAATTCGC AGAACGTGCTGATTTCAAAGATATGTTCGGAGCCAGTATCATTACGAAGTTACTTCCTACTTATATTAAGCAGAAT TCCAAGTACAGCGAACGTTATGACGAAAGCGTAAAGATCATGAAATTATATGGAAAGTTTACAACGTCACTGACGG ATTATTTTGAAACGCGTAAGAATATCTTTTCTAAAGAAAAAATCAGCTCTGCCGTGGGATACCGTATCGTGGAAGA GAATGCGGAAATCTTTCTGCAAAATCAAAATGCCTACGACCGCATTTGCAAAATCGCCGGTCTTGACTTACATGGC CTGGATAACGAAATCACGGCTTACGTTGACGGAAAAACTTTGAAGGAAGTCTGCAGCGACGAAGGTTTCGCCAAGG TCATTACACAAGGGGGTATCGATCGTTATAATGAAGCCATTGGCGCCGTCAACCAGTACATGAACCTGCTTTGCCA GAAAAACAAAGCGTTGAAACCGGGACAGTTTAAGATGAAGCGTCTTCATAAGCAGATCTTGTGCAAGGGCACGACG TCCTTTGACATCCCTAAAAAGTTCGAGAATGATAAGCAAGTCTATGATGCTGTTAATAGTTTCACAGAGATCGTCA CTAAGAATAATGATTTAAAACGTCTTTTGAACATCACTCAAAACGCTAATGACTACGATATGAACAAGATTTATGT GGTCGCCGACGCATATTCAATGATTTCTCAGTTTATCTCGAAGAAATGGAATCTTATTGAGGAATGTTTATTGGAC TACTATTCGGATAACCTGCCAGGTAAAGGGAATGCTAAAGAGAATAAGGTCAAGAAAGCTGTAAAGGAAGAAACCT ATCGTTCGGTCAGCCAGCTTAACGAGGTGATTGAGAAGTATTATGTTGAAAAAACTGGTCAGTCCGTTTGGAAAGT CGAGTCGTACATTTCGTCGCTTGCCGAAATGATTAAGCTGGAGCTTTGTCATGAAATCGACAATGACGAGAAGCAT AACTTAATCGAGGATGACGAGAAGATTTCAGAGATCAAGGAGCTTCTTGATATGTACATGGACGTTTTCCACATCA TTAAGGTATTTCGTGTGAACGAAGTACTTAATTTTGATGAAACTTTTTACTCTGAAATGGACGAGATCTACCAAGA TATGCAGGAAATTGTGCCTTTATATAATCACGTGCGCAACTATGTCACACAAAAGCCCTACAAACAAGAAAAGTAC CGTTTGTATTTCCACACCCCCACGTTAGCCAACGGGTGGTCCAAATCTAAGGAATATGATAATAACGCGATCATCC TGGTCCGTGAAGATAAGTACTATTTGGGAATCCTTAATGCGAAAAAAAAGCCGTCCAAAGAAATTATGGCAGGGAA AGAAGATTGCTCAGAACACGCTTACGCCAAGATGAACTACTATTTATTACCCGGTGCAAATAAAATGTTGCCTAAG GTGTTTTTATCCAAGAAGGGTATTCAGGACTACCATCCGAGCTCGTATATCGTAGAGGGCTACAACGAAAAGAAGC ACATCAAAGGGAGCAAAAATTTCGACATTCGTTTTTGTCGTGATTTGATCGACTACTTCAAAGAGTGCATTAAGAA ACATCCAGATTGGAACAAGTTCAACTTTGAGTTTTCAGCCACAGAAACCTATGAGGACATCTCCGTGTTCTATCGC GAAGTAGAAAAGCAAGGATACCGCGTAGAGTGGACTTACATTAATTCCGAGGACATTCAGAAATTAGAGGAGGACG GCCAGTTGTTTCTGTTTCAAATCTACAATAAGGATTTTGCCGTGGGATCGACGGGCAAACCAAATTTGCACACTCT GTACTTAAAGAATCTTTTCTCGGAGGAGAACCTGCGTGACATTGTACTTAAATTAAACGGAGAGGCCGAAATCTTT TTTCGTAAGTCGTCTGTCCAAAAGCCGGTAATCCACAAATGTGGGTCGATTTTGGTAAACCGTACATATGAAATCA CGGAATCTGGCACTACGCGCGTGCAATCCATTCCAGAGTCCGAGTATATGGAATTATATCGTTATTTCAACTCGGA AAAGCAGATCGAGCTGTCTGATGAGGCCAAAAAATACTTGGATAAAGTACAATGCAATAAAGCTAAGACCGACATT GTTAAGGACTACCGCTACACGATGGATAAGTTCTTTATTCACTTGCCAATTACTATTAACTTCAAGGTAGACAAAG GAAACAATGTAAACGCGATTGCACAGCAATATATTGCAGAACAGGAGGACCTGCACGTCATTGGTATTGACCGTGG AGAGCGTAACCTTATCTACGTGTCCGTCATTGACATGTATGGACGTATCCTTGAACAAAAATCATTTAACCTTGTC GAGCAGGTTAGTAGCCAGGGGACAAAGCGCTACTATGATTACAAAGAAAAGTTGCAGAACCGTGAAGAAGAACGTG ACAAAGCCCGTAAAAGTTGGAAGACCATTGGAAAGATTAAGGAATTGAAGGAAGGTTACTTAAGTAGCGTGATTCA CGAGATTGCACAAATGGTCGTGAAATATAACGCCATTATTGCAATGGAGGATCTTAATTATGGTTTCAAGCGCGGC CGTTTCAAAGTGGAACGCCAGGTCTACCAAAAGTTTGAAACTATGTTGATTAGCAAATTAAATTATCTTGCTGACA AAAGCCAAGCAGTGGACGAACCGGGAGGAATCCTGCGTGGTTACCAGATGACATACGTCCCAGACAACATCAAGAA CGTAGGGCGCCAGTGTGGGATTATTTTCTACGTCCCCGCCGCTTATACATCTAAGATTGACCCTACAACCGGCTTT ATTAACGCCTTTAAGCGTGACGTAGTAAGCACGAACGATGCTAAGGAGAATTTTCTGATGAAGTTCGATAGCATCC AATACGACATTGAGAAGGGACTTTTTAAGTTCTCCTTTGATTATAAGAACTTTGCAACCCACAAACTTACCCTTGC AAAAACCAAGTGGGACGTATATACGAATGGCACGCGTATCCAGAATATGAAAGTTGAGGGGCACTGGCTTTCTATG GAAGTTGAGTTAACTACTAAAATGAAAGAGTTGCTGGACGACTCCCACATCCCATATGAAGAAGGTCAGAATATTC TGGACGATCTTCGTGAAATGAAGGATATCACGACGATTGTAAATGGGATTTTGGAGATTTTTTGGTTAACAGTTCA GTTGCGTAACAGCCGTATTGATAACCCTGACTATGATCGCATTATTTCGCCAGTTTTGAACAATGACGGTGAGTTC TTCGACTCAGACGAGTATAACAGTTACATTGACGCACAAAAGGCCCCCCTTCCTATCGACGCGGATGCCAATGGCG CTTTCTGCATTGCACTGAAAGGAATGTACACGGCGAACCAAATCAAGGAGAATTGGGTCGAGGGAGAGAAATTACC AGCGGACTGTCTTAAGATTGAGCACGCATCATGGTTAGCCTTTATGCAAGGGGAACGTGGGTAG SEQ ID NO: 17 ART4_Optimized_2 ATGAGTTACAATCGTGAAAAAATGGAGGAGAAGGAACTGGGAAAGAATCAAAACTTCCAGGAGTTTATCGGGGTCT CGCCTTTGCAAAAGACCTTACGTAACGAACTTATTCCAACCGAGACGACGAAGAAGAATATCGCACAGTTAGACCT GCTTACCGAAGACGAGGTACGCGCTCAGAATCGCGAAAAGTTGAAGGAGATGATGGACGATTACTACCGCGACGTC ATCGATAGCACATTGCGCGGCGAGTTGTTAATTGACTGGTCTTATTTATTCTCCTGCATGCGCAATCACCTGTCGG AGAATTCTAAGGAAAGCAAGCGTGAATTGGAGCGCACCCAAGATTCAGTTCGCTCACAGATCCACGACAAGTTCGC CGAACGCGCAGATTTTAAAGACATGTTTGGAGCCTCGATTATTACGAAACTTCTGCCTACGTATATTAAGCAAAAT TCGAAGTACTCAGAGCGCTATGACGAGAGCGTAAAAATTATGAAGCTGTACGGTAAGTTTACCACCTCGCTTACAG ACTACTTTGAAACCCGTAAGAACATTTTTTCAAAGGAAAAAATCTCGTCGGCCGTGGGATATCGTATCGTCGAAGA GAATGCTGAGATCTTTTTACAAAACCAAAACGCTTACGACCGCATTTGTAAGATTGCGGGTTTAGATCTGCACGGG TTGGATAACGAGATTACAGCATATGTGGATGGAAAAACGCTTAAAGAGGTCTGTAGCGATGAGGGATTCGCCAAAG TAATTACTCAAGGTGGAATCGACCGCTACAACGAGGCAATCGGAGCCGTTAATCAGTACATGAATTTACTGTGTCA AAAAAACAAAGCGCTTAAACCGGGGCAGTTCAAAATGAAGCGCCTTCACAAACAGATCTTATGCAAGGGAACCACG TCCTTCGACATCCCTAAAAAGTTTGAGAACGACAAACAGGTCTATGATGCTGTCAACTCGTTCACAGAGATCGTAA CGAAGAACAACGACTTAAAACGCTTGCTTAACATCACCCAAAACGCAAACGACTATGATATGAACAAGATCTACGT GGTTGCAGACGCCTACTCTATGATCAGCCAGTTTATCTCAAAGAAATGGAACTTGATCGAGGAGTGTTTGCTTGAC TATTACTCAGACAACCTTCCTGGTAAAGGCAATGCCAAAGAAAATAAGGTCAAGAAAGCGGTTAAAGAAGAAACAT ACCGCAGCGTGAGTCAACTGAATGAGGTAATCGAAAAGTACTATGTGGAGAAAACAGGTCAAAGCGTCTGGAAAGT GGAATCATACATTTCTTCTTTAGCTGAGATGATTAAATTGGAACTTTGTCACGAAATCGATAATGACGAGAAACAC AACTTAATCGAAGACGACGAGAAAATCAGTGAGATTAAGGAACTGCTGGATATGTACATGGATGTTTTTCATATTA TCAAAGTTTTCCGCGTTAACGAGGTTTTAAACTTTGACGAAACATTTTATAGCGAGATGGATGAAATTTACCAGGA CATGCAGGAAATTGTGCCGTTATACAATCATGTCCGCAACTATGTTACTCAGAAGCCCTACAAACAGGAGAAATAT CGCTTATATTTCCACACCCCAACACTTGCTAACGGCTGGTCGAAAAGCAAGGAATATGACAATAACGCAATCATCC TTGTTCGTGAAGATAAATATTATCTGGGGATCCTGAATGCCAAAAAAAAACCGTCAAAAGAAATTATGGCTGGAAA GGAAGACTGTTCAGAACACGCCTATGCAAAGATGAACTACTACTTGCTGCCCGGAGCCAATAAGATGCTGCCAAAG GTATTTTTGAGCAAGAAGGGGATCCAAGACTACCACCCCAGTTCCTACATCGTCGAAGGCTACAACGAGAAGAAAC ACATCAAAGGGAGTAAGAACTTCGACATTCGTTTCTGCCGCGACCTGATCGATTACTTCAAGGAGTGTATCAAAAA ACACCCAGACTGGAACAAATTTAATTTCGAGTTCTCCGCTACGGAAACTTATGAAGATATTTCGGTCTTTTACCGC GAAGTGGAGAAGCAAGGGTACCGTGTGGAGTGGACGTATATCAACAGTGAGGATATTCAGAAGCTGGAAGAAGACG GGCAACTGTTCCTGTTTCAGATCTATAACAAAGATTTCGCCGTGGGGTCGACTGGGAAGCCTAATTTACATACTCT TTATTTAAAAAATCTGTTCTCGGAGGAGAACTTGCGTGATATTGTTTTGAAGCTTAATGGCGAGGCTGAGATCTTT TTCCGCAAGAGTTCCGTTCAAAAACCTGTGATTCATAAATGTGGTAGCATCTTGGTAAACCGCACTTACGAAATCA CCGAAAGTGGAACCACGCGCGTACAGTCAATCCCTGAATCTGAGTACATGGAGCTGTATCGCTATTTCAACAGCGA GAAACAGATTGAACTGTCTGACGAAGCTAAGAAATACTTAGACAAGGTTCAGTGCAATAAGGCAAAGACAGATATC GTAAAAGACTATCGTTATACCATGGATAAATTTTTCATTCATTTGCCCATTACTATCAATTTTAAAGTCGACAAAG GCAACAATGTCAACGCCATTGCTCAACAGTATATCGCTGAACAAGAGGATCTGCATGTCATCGGCATTGATCGTGG CGAACGTAATTTAATTTACGTGAGCGTTATCGACATGTACGGGCGTATCTTAGAACAGAAATCATTTAACCTTGTA GAACAGGTGTCAAGCCAGGGTACAAAACGCTATTATGATTACAAGGAGAAGCTTCAAAACCGCGAAGAGGAGCGCG ACAAGGCTCGTAAGTCTTGGAAGACTATCGGAAAAATCAAAGAGCTGAAGGAGGGGTATCTGAGCTCGGTCATCCA CGAGATCGCCCAGATGGTCGTTAAATATAATGCAATTATTGCGATGGAAGACCTTAATTATGGCTTTAAGCGCGGA CGTTTCAAAGTGGAGCGTCAGGTGTATCAGAAGTTTGAAACCATGCTTATTTCGAAGTTAAATTATTTGGCAGACA AGTCGCAAGCGGTTGATGAGCCGGGGGGCATCCTTCGCGGATACCAGATGACCTACGTACCGGATAATATCAAGAA TGTGGGGCGTCAATGTGGGATCATTTTTTATGTTCCGGCTGCGTACACGTCAAAGATTGACCCTACTACCGGGTTT ATTAATGCTTTCAAACGCGATGTTGTCTCCACAAACGACGCAAAGGAAAATTTTTTGATGAAATTTGACTCCATCC AATACGATATCGAAAAAGGGCTTTTCAAATTTAGCTTCGACTATAAAAATTTTGCGACCCACAAATTAACGCTTGC AAAAACTAAGTGGGATGTATACACAAACGGTACTCGTATTCAAAATATGAAAGTGGAGGGCCATTGGTTATCTATG GAGGTCGAGCTTACTACTAAAATGAAGGAATTACTTGATGATTCGCATATCCCATACGAGGAAGGCCAAAACATCC TGGATGACCTTCGTGAGATGAAAGACATTACGACAATTGTCAATGGTATCTTGGAAATCTTTTGGCTTACGGTACA GTTGCGTAATTCACGTATCGACAACCCAGATTACGACCGCATTATTTCTCCAGTGCTTAACAATGATGGGGAATTT TTCGATTCAGATGAGTACAACAGCTATATTGACGCCCAGAAGGCACCGCTTCCGATCGACGCGGATGCCAACGGAG CCTTCTGTATTGCTTTGAAGGGTATGTATACTGCCAACCAAATCAAAGAGAACTGGGTCGAAGGTGAGAAATTACC AGCTGATTGTCTGAAAATCGAACATGCCTCTTGGTTGGCCTTCATGCAAGGGGAACGTGGATAG SEQ ID NO: 18 ART4_Optimized_3 ATGAGCTACAACCGCGAGAAGATGGAAGAAAAGGAATTAGGAAAGAATCAGAATTTCCAGGAATTTATTGGAGTTA GCCCATTGCAGAAAACTTTGCGTAACGAACTGATTCCCACTGAAACTACTAAGAAGAACATCGCCCAATTAGATCT GCTTACCGAAGACGAGGTCCGCGCACAGAATCGCGAAAAGTTAAAAGAAATGATGGATGACTATTATCGCGATGTT ATTGACTCAACATTGCGTGGTGAGTTACTTATTGACTGGTCATACTTATTTTCGTGCATGCGCAATCACCTTTCGG AAAATTCCAAGGAGAGTAAGCGTGAATTGGAACGTACTCAAGATTCTGTCCGTAGTCAGATCCACGACAAGTTTGC TGAACGTGCTGATTTTAAGGACATGTTTGGGGCATCCATTATTACGAAATTACTTCCAACTTACATCAAACAAAAT TCGAAGTACTCTGAGCGCTATGATGAAAGTGTGAAGATTATGAAACTTTACGGTAAATTTACAACCTCACTTACGG ATTACTTTGAGACACGTAAGAATATCTTTAGCAAAGAGAAGATCTCATCAGCGGTCGGTTATCGCATCGTCGAGGA GAACGCGGAGATCTTTTTACAAAACCAAAACGCTTACGATCGCATTTGTAAAATTGCGGGGCTGGACCTGCACGGA CTTGACAATGAGATCACAGCATACGTGGATGGAAAAACCCTTAAGGAAGTTTGCAGTGACGAGGGCTTCGCGAAGG TAATCACTCAGGGGGGAATCGACCGCTATAATGAAGCAATCGGTGCCGTGAACCAATACATGAACCTGTTGTGCCA AAAGAATAAAGCTCTTAAACCAGGTCAATTTAAAATGAAACGTCTTCATAAGCAAATCTTATGTAAAGGCACGACG AGCTTCGACATCCCTAAGAAGTTCGAAAATGATAAGCAGGTTTATGACGCCGTAAACTCGTTTACTGAAATCGTTA CGAAAAATAATGACTTAAAGCGTTTGCTTAACATCACGCAAAACGCGAACGATTACGACATGAATAAAATCTACGT CGTCGCAGATGCGTATTCTATGATCTCCCAGTTTATCTCTAAGAAATGGAATTTGATCGAGGAGTGCCTGCTGGAT TACTATTCTGACAATCTTCCGGGCAAAGGAAACGCTAAAGAAAATAAGGTCAAGAAGGCAGTGAAAGAGGAGACAT ATCGTAGTGTTAGTCAGTTGAACGAGGTCATTGAAAAGTATTACGTTGAGAAGACCGGTCAGTCGGTGTGGAAGGT GGAGTCGTATATTTCGTCACTGGCTGAAATGATTAAGTTAGAATTATGTCATGAGATTGACAATGATGAAAAACAT AATCTTATTGAGGATGACGAAAAGATTTCTGAAATCAAGGAACTGCTGGACATGTACATGGATGTGTTCCACATTA TCAAGGTATTTCGCGTTAATGAAGTCTTGAACTTCGATGAAACGTTCTATAGCGAGATGGATGAGATTTATCAGGA TATGCAAGAAATTGTCCCTTTATATAACCATGTCCGTAACTATGTTACTCAGAAGCCATATAAGCAAGAAAAATAC CGCCTTTACTTTCACACGCCAACTTTAGCGAACGGGTGGAGCAAATCAAAGGAGTATGATAATAACGCCATCATCT TGGTTCGTGAAGACAAATATTATTTAGGAATTCTTAACGCCAAGAAGAAACCATCAAAAGAGATCATGGCAGGGAA GGAAGACTGTTCAGAGCACGCTTACGCCAAAATGAACTACTACCTTCTTCCGGGTGCAAATAAGATGTTGCCAAAA GTTTTCTTGTCCAAAAAAGGGATTCAAGATTACCATCCCAGTTCTTACATTGTGGAGGGATACAATGAGAAAAAGC ACATTAAGGGCTCTAAGAACTTTGACATCCGTTTTTGTCGCGACTTAATTGACTATTTTAAAGAATGTATTAAGAA ACATCCCGATTGGAACAAATTTAATTTCGAATTCAGCGCGACGGAAACCTATGAAGACATTAGTGTATTTTATCGC GAAGTGGAAAAACAAGGTTACCGCGTTGAGTGGACCTACATTAACAGCGAGGACATTCAGAAATTGGAGGAGGATG GGCAACTGTTCTTGTTTCAAATCTACAACAAAGATTTCGCTGTCGGGTCCACTGGGAAACCGAACCTGCATACGCT TTATTTGAAGAACTTATTTTCGGAAGAGAATCTTCGTGACATTGTTCTGAAACTTAACGGGGAAGCAGAGATTTTT TTTCGCAAGTCGTCCGTCCAAAAACCCGTAATTCATAAATGTGGGAGCATTTTAGTAAACCGCACATATGAGATCA CTGAAAGCGGAACTACTCGTGTTCAGTCGATTCCTGAGTCTGAGTATATGGAGTTGTACCGCTATTTCAATTCTGA GAAACAAATTGAGCTGTCCGACGAGGCGAAGAAGTACTTAGATAAGGTACAGTGTAATAAGGCAAAGACAGACATC GTGAAGGACTACCGTTATACGATGGACAAATTCTTCATTCATCTGCCAATTACTATTAATTTCAAGGTTGATAAAG GCAACAATGTGAACGCAATCGCACAGCAGTATATTGCTGAGCAGGAAGACTTGCACGTCATCGGGATCGACCGTGG AGAACGTAACCTTATCTATGTTAGTGTCATTGACATGTACGGACGCATTCTGGAGCAGAAGTCATTCAACTTGGTA GAACAGGTATCGAGCCAAGGCACGAAGCGTTATTACGATTACAAGGAGAAACTGCAGAACCGCGAGGAAGAACGTG ACAAGGCCCGCAAAAGCTGGAAAACAATTGGCAAAATTAAAGAATTAAAAGAAGGGTACCTTAGTTCAGTCATCCA TGAGATTGCCCAGATGGTGGTCAAGTATAACGCAATCATTGCAATGGAAGATCTGAATTATGGCTTCAAGCGTGGT CGCTTTAAGGTCGAACGCCAAGTCTATCAGAAATTCGAGACCATGCTTATCAGCAAACTTAACTACTTAGCAGACA AATCGCAGGCAGTAGACGAACCTGGCGGGATCCTTCGCGGCTACCAAATGACGTATGTACCTGACAATATCAAAAA CGTCGGTCGCCAATGTGGGATTATTTTTTACGTACCGGCGGCCTACACGTCAAAAATTGATCCTACAACGGGGTTT ATCAACGCATTTAAACGCGATGTGGTTTCGACAAACGATGCGAAGGAGAACTTTCTGATGAAATTTGACTCGATCC AGTACGATATTGAAAAGGGCCTGTTCAAATTCTCGTTCGACTACAAAAATTTCGCGACTCATAAACTGACGCTGGC CAAGACGAAGTGGGATGTCTACACGAATGGGACACGTATTCAGAATATGAAGGTGGAAGGACATTGGTTGTCAATG GAGGTCGAGCTTACGACGAAAATGAAGGAGCTTCTGGATGACAGCCACATTCCCTACGAGGAGGGCCAAAATATCT TAGATGATTTGCGCGAGATGAAAGACATCACAACCATTGTTAATGGAATCCTTGAGATTTTCTGGCTGACCGTACA ATTACGTAATTCACGCATCGACAACCCGGATTATGATCGCATTATTTCTCCAGTGCTGAATAACGATGGCGAGTTC TTTGATTCTGACGAATACAATTCTTATATTGACGCACAGAAAGCGCCTTTACCTATCGACGCAGATGCCAATGGCG CATTTTGCATTGCACTGAAGGGCATGTATACAGCTAACCAAATTAAAGAGAACTGGGTTGAAGGTGAGAAATTACC AGCTGATTGCTTAAAGATCGAGCACGCATCTTGGTTGGCATTTATGCAGGGGGAACGCGGATAG SEQ ID NO: 19 ART5_WT ATGAGTGCAGTATTTAAAATCAAGGAGAGTACCATGAAGGACTTTACACATCAGTATTCACTGAGCAAGA CATTGAGGTTTGAGCTCAAACCCGTCGGAGAAACGGCAGAGAGGATCGAGGATTTCAAAAATCAGGGGCT CAAAAGTATTGTTGAAGAAGACCGCCAACGAGCAGAAGATTATAAAAAGATGAAAAGGATTCTCGACGAT TATCACAAAGAATTTATCGAAGAGGTGCTCAATGACGACATCTTCACCGCAAACGAAATGGAATCTGCTT TCGAAGTGTACCGCAAATATATGGCGAGTAAAAATGATGATAAGCTGAAAAAAGAAATCACCGAAATTTT TACAGATTTAAGAAAGAAAATCGCAAAGGCTTTTGAGAATAAGAGCAAAGAATATTGTCTTTACAAAGGC GACTTCAGCAAACTGATAAACGAAAAGAAGACCGGAAAAGACAAAGGGCCGGGAAAACTCTGGTACTGGC TTAAAGCTAAGGCAGATGCAGGAGTTAACGAATTCGGAGACGGCCAAACTTTTGAACAAGCCGAAGAAGC CTTAGCCAAATTCAATAATTTCAGCACCTATTTCACCGGATTCAACCAGAATCGTGACAATATCTACACG GATGCTGAACAGCAAACCGCTATCAGCTACAGAGTAATAAACGAAAATATGACCAGATATTTTGACAACT GCATTCGATACTCCAGTATTGAAAACAAATATCCGGAACTCGTAAAACAGCTTGAGCCGCTTAGCGGCAA ATTCGCCCCCGGAAACTATAAAGATTATCTAAGCCAGACTGCCATCGATATTTACAACGAAGCTGTCGGC CATAAGTCTGATGACATAAACGCAAAGGGTATCAACCAGTTCATCAATGAATACCGACAGAGAAACAGCA TAAAGGGCCGCGAGCTGCCGATTATGTCCGTACTCTACAAACAGATATTAAGCGATATTAATAAAGATCT CATTATCGACAAGTTCGAGAACGCCGGCGAGCTTTTGGATGCTGTAAAAACACTCCACAGAGAATTAACT GATAAAAAGATTTTGCTCAAGATTAAACAAACTCTTAACGAATTTCTCACAGAAGACAATTCGGAGGATA TTTACATCAAAAGCGGCACCGATCTTACAGCAGTTTCAAACGCTATATGGGGCGAGTGGTCTGTTATTCC TAAAGCACTCGAAATGTACGCCGAAAACATAACTGACATGAATGCTAAAGCCAGAGAAAAATGGCTGAAA CGAGAAGCCTACCATTTGAAAACCGTACAGGAAGCGATAGAAGCGTACCTGAAAGATAACGAAGAATTTG AAACCCGGAATATATCAGAATATTICACAAATTTTAAATCCGGCGAAAACGACCTTATTCAAGTTGTCCA AAGTGCTTACGCGAAAATGGAATCGATTTTCGGTATAGAGGATTTTCACAAAGACAGGCGTCCCGTCACA GAAAGCGGCGAGCCCGGAGAAGGTTTCAGACAGGTAGAACTTGTTCGGGAGTATCTTGACAGCCTGATAA ACGTAGAACACTTTATAAAACCGCTGCACATGTTCAGAAGCGGTAAGCCGATTGAGCTGGAAGACTGCAA CAGCAACTTCTACGATCCTTTGAATGAGGCATATAAGGAACTCGATGTTGTATTCGGCATATACAACAAA GTAAGAAATTACGTTACCCAAAAACCCTATTCAAAGGATAAATTTAAAATCAATTTTCAAAACAGCACCC TTCTCGACGGCTGGGATGTAAACAAAGAATCAGCCAACAGCTCTGTTTTGCTGTTAAAAAATGGCAAATA TTACCTTGGTGTAATGAAGCAGGGCGCAAGCAATATCCTCAATTACCGCCCAGAGCCGAGCGATAGCAAA AACAAAATAAACGCCAAAAAACAGCTTTCAGAAATAGCACTTGCAGGGGCAACGGATGATTATTACGAGA AAATGATATATAAACTGTTGCCTGACCCTGCTAAAATGCTGCCAAAAGTGTTTTTCAGCGCCAAAAACAT TGAATTTTACAACCCTTCCCAGGAAATAATATATATCAGGGAAAATGGGCTTTTCAAGAAAGACGCCGGC GATAAAGAGTCCCTTAAAAAGTGGATCGGTTTCATGAAAACATCGCTTTTAAAACACCCTGAATGGGGTA GTTACTTTAACTTTGAATTTGAGCCCGCTGAAGATTATCAGGATATCAGTATTTTTTACAAACAAGTTGC AGAGCAGGGCTACTCTGTTACTTTTGACAAAATAAAAACAAGTTACATAGAAGAAAAGGTTGCCAGTGGA GAGCTGTATCTCTTTGAAATATATAATAAGGATTTTTCTCCACACAGCAAGGGACGGCCCAATCTGCATA CAATGTACTGGAAAAGTCTTTTTGAAAAAGAGAATCTCCAAAATCTCGTAACTAAACTCAACGGCGAGGC GGAGGTCTTCTTCCGGCAGCATTCCATAAAGAGAAACGAGAAGGTGGTTCACAGAGCCAACCGGCCGATA CAAAACAAAAACCCCCTCACCGAAAAGAAACAAAGCATCTTTGAATACGACCTCGTGAAAGACCGCCGGT TTACAAAGGATAAATTTTTTCTGCATTGCCCTATTACGCTGAACTTCAAAGAGGCCGGACCCGGCAGGTT CAACGACAAAGTCAACAAATATATCGCCGGCAATCCGGACATCAGGATAATAGGCATTGACAGAGGAGAG AGGCACCTGCTCTATTACAGCCTCATAGACCAGAGCGGCAGAATCGTGGAGCAGGGCACACTTAACCAGA TAACCAGTACCCTCAACAGCGGCGGCAGGGAAATACCCAAAACCACCGATTACCGCGGCCTGCTTGATAC AAAAGAAAAAGAACGGGACAAGGCGAGAAAATCATGGTCAATGATTGAAAACATTAAAGAGCTCAAAAGC GGCTATCTCTCGCATATTGTCCATAAACTCGCTAAACTGATGGTTAAGAATAATGCAGTTGTGGTGCTTG AGGATCTTAATTTCGGGTTCAAACGCGGCCGATTCAAGGTTGAAAAACAGGTTTACCAGAAATTTGAAAA GGCCCTCATAGAAAAGCTGAACTATCTTGTTTTCAAAGACGCCCGGCCCGCAGAGCCGGGGCATTATCTC AACGCATACCAGCTTACCGCACCTCTTGAAAGTTTTAAAAAGCTCGGCAAACAGAGCGGATTTATATACT ATGTGCCGGCGTGGAACACCTCAAAGATTGACCCTGTTACCGGTTTTGTAAATCAGTTTTACATCGAAAA GAACTCAATGCAGTACCTTAAAAACTTTTTTGGTAAATTCGATTCGATAAGGTTTAACCCGGATAAAAAT TACTTCGAGTTTGGATTTGACTACAAAAACTTTCATAACAAGGCCGCCAAAAGCAAATGGACTATCTGCA CCCATGGAGACAAACGCTCATGGTACAACCGTAAACAGAGAAAACTGGAGATTCACAATGTAACAGAAAA TCTGGCAAGCCTGCTCAGCGGCAAAGGCATAAATTTCGCTGACGGCGGCAGTATCAAAGACAAAATACTA TCCGTAGATGATGCGTCTTTCTTTAAAAGCCTTGCATTTAATTTTAAACTCACCGCCCAGCTTAGGCACA CATTCGAGGATAACGGCGAGGAGATCGACTGCATTATCTCACCTGTCGCGGCGGCTGACGGTACATTCTT CTGTTCTGAAACGGCAAAAAAACTTAACATGGAATTACCCCATGACGCCGACGCAAACGGTGCTTATAAT ATTGCCCGTAAGGGTCTTATGGTTCTAAGGCAGATACGCGAAAGCGGCAAGCCCAAGCCAATCTCAAACG CCGATTGGTTAGACTTCGCCCAGCAGAATGAAGATTGA SEQ ID NO: 20 ART5_Optimized_1 ATGTCTGCTGTATTCAAAATCAAGGAGTCTACAATGAAGGATTTTACTCACCAATACAGTCTGAGCAAGACACTTC GCTTCGAGCTGAAACCAGTTGGGGAAACCGCAGAGCGCATTGAGGACTTCAAAAACCAAGGATTAAAGTCCATTGT AGAAGAAGACCGCCAGCGTGCTGAAGATTATAAAAAGATGAAACGTATTCTGGATGACTATCACAAAGAGTTCATT GAGGAGGTGTTAAACGATGACATCTTTACGGCCAACGAAATGGAGTCCGCGTTTGAGGTATATCGTAAATATATGG CGTCAAAAAACGATGATAAACTTAAGAAAGAAATCACTGAGATTTTTACAGACCTTCGCAAAAAAATTGCGAAAGC CTTCGAAAATAAATCGAAGGAGTATTGCCTTTACAAGGGGGATTTCTCGAAATTGATTAACGAAAAAAAAACTGGT AAGGATAAAGGCCCCGGGAAACTGTGGTATTGGCTTAAAGCGAAGGCAGACGCTGGTGTCAACGAGTTCGGTGACG GGCAAACTTTCGAGCAGGCAGAAGAAGCCTTAGCTAAGTTTAATAATTTTAGCACCTACTTTACAGGTTTCAATCA AAATCGCGACAATATTTACACTGATGCGGAACAGCAGACCGCTATCTCATATCGTGTTATCAATGAGAACATGACA CGTTACTTCGATAATTGCATCCGCTATTCTTCAATCGAAAACAAGTATCCTGAACTTGTGAAACAACTGGAGCCCC TTAGTGGTAAGTTCGCTCCAGGAAACTATAAAGACTATCTGTCTCAAACAGCGATTGATATCTATAATGAGGCTGT CGGACACAAAAGTGACGATATTAACGCGAAGGGTATCAACCAATTCATTAACGAGTATCGCCAGCGTAACTCAATT AAGGGGCGCGAATTGCCGATTATGTCAGTGCTGTACAAACAAATCCTTAGTGATATCAACAAGGACTTAATCATCG ACAAGTTCGAGAACGCTGGAGAGCTGCTTGACGCAGTTAAAACTCTGCATCGTGAGTTGACGGACAAAAAAATTTT GCTTAAAATTAAGCAGACGTTGAACGAGTTCTTGACAGAAGATAATAGCGAAGACATTTATATTAAGTCAGGCACA GATTTAACCGCGGTGTCGAACGCCATCTGGGGTGAATGGTCCGTGATTCCCAAGGCGTTAGAAATGTACGCGGAAA ACATCACGGATATGAACGCTAAAGCACGTGAAAAATGGTTGAAACGTGAAGCATATCATCTTAAGACAGTACAAGA AGCGATTGAGGCATATTTGAAAGACAATGAGGAGTTTGAAACACGTAACATCTCCGAATACTTCACAAATTTCAAG AGCGGAGAGAATGACCTTATTCAGGTAGTACAGTCGGCTTATGCCAAAATGGAGTCTATCTTTGGTATTGAGGACT TCCACAAGGATCGTCGCCCAGTGACCGAATCGGGTGAACCGGGAGAGGGTTTTCGCCAGGTAGAGTTAGTCCGCGA GTATCTTGATAGTCTTATTAACGTAGAACACTTTATCAAACCACTTCATATGTTTCGCAGCGGTAAGCCGATTGAG CTGGAAGATTGTAATAGTAACTTCTACGATCCACTTAACGAAGCTTATAAAGAGTTGGATGTTGTGTTTGGCATCT ACAACAAAGTTCGCAACTACGTGACACAAAAACCCTATTCGAAAGATAAATTTAAGATTAACTTCCAAAACTCCAC GCTTTTAGACGGTTGGGACGTTAACAAGGAATCTGCCAACTCTTCCGTATTGTTGTTGAAAAATGGGAAATACTAT CTGGGGGTGATGAAACAAGGCGCCAGCAATATTTTAAACTACCGTCCAGAACCTAGCGATTCCAAGAATAAAATTA ATGCTAAGAAGCAACTTAGCGAGATTGCTTTGGCGGGTGCCACTGACGACTATTATGAGAAAATGATCTATAAGTT GTTGCCGGACCCGGCCAAAATGCTGCCAAAGGTTTTCTTTAGTGCGAAAAATATCGAGTTTTACAATCCTAGTCAG GAAATCATCTACATTCGCGAGAATGGGTTATTCAAAAAAGACGCAGGTGATAAGGAATCACTGAAGAAGTGGATTG GTTTCATGAAAACAAGTTTGCTGAAACACCCAGAATGGGGCAGTTACTTCAATTTTGAATTTGAGCCTGCCGAGGA CTATCAGGATATCTCAATCTTTTACAAACAGGTCGCAGAACAAGGCTATTCCGTCACCTTTGACAAGATCAAGACG TCGTACATTGAGGAGAAGGTAGCAAGCGGAGAACTTTATTTATTCGAAATTTATAATAAAGATTTTTCGCCGCATT CCAAGGGTCGTCCCAATCTTCATACTATGTATTGGAAATCATTATTCGAGAAGGAAAATCTGCAAAACTTAGTGAC GAAACTGAATGGCGAGGCCGAGGTATTCTTTCGCCAACATAGCATCAAGCGTAACGAAAAGGTTGTACATCGCGCC AATCGTCCTATCCAGAACAAGAATCCACTGACAGAGAAAAAACAGTCAATTTTCGAATATGATTTGGTTAAAGACC GCCGTTTTACGAAGGACAAGTTTTTCTTACATTGCCCCATCACTTTGAACTTCAAGGAGGCTGGCCCCGGGCGCTT TAACGACAAAGTGAATAAGTATATTGCAGGTAACCCGGACATTCGTATCATCGGGATCGACCGCGGGGAGCGTCAC CTTTTATATTACTCGCTTATTGACCAAAGTGGCCGTATCGTTGAGCAGGGAACACTGAACCAGATCACGTCTACCT TAAATAGCGGAGGGCGCGAAATCCCTAAGACGACAGATTACCGCGGCTTACTGGACACAAAGGAGAAGGAACGTGA CAAGGCCCGCAAGTCCTGGTCTATGATCGAAAACATTAAGGAACTTAAATCGGGATATTTATCGCATATCGTGCAC AAGTTGGCTAAATTAATGGTCAAGAACAACGCAGTTGTAGTATTGGAAGACTTGAACTTCGGGTTTAAGCGCGGAC GTTTCAAAGTCGAAAAGCAAGTGTACCAGAAATTCGAAAAAGCATTGATCGAGAAACTGAATTATTTGGTTTTTAA AGACGCCCGCCCCGCAGAGCCAGGGCACTACTTAAACGCTTACCAACTGACGGCTCCTCTGGAGTCATTCAAAAAA CTTGGTAAGCAATCAGGCTTCATTTATTACGTTCCCGCATGGAACACGTCGAAGATTGATCCAGTCACTGGCTTCG TGAATCAGTTTTACATTGAAAAAAATAGTATGCAATATTTAAAAAATTTCTTCGGGAAATTTGACTCGATCCGTTT TAATCCCGACAAGAACTACTTCGAGTTTGGTTTCGACTATAAAAACTTCCACAATAAGGCAGCGAAATCTAAGTGG ACCATCTGTACTCATGGAGATAAGCGCAGTTGGTACAACCGCAAGCAACGCAAACTTGAGATCCATAACGTTACTG AGAACCTGGCGTCGCTTCTGTCCGGCAAAGGCATTAACTTCGCTGATGGTGGGTCCATCAAAGACAAAATTCTTAG TGTAGACGACGCAAGTTTTTTTAAGTCTTTAGCTTTTAACTTCAAATTGACCGCCCAACTTCGCCATACCTTTGAA GATAATGGAGAGGAGATCGATTGCATCATCTCGCCCGTTGCAGCTGCAGATGGGACTTTTTTCTGTTCGGAAACGG CTAAAAAACTTAATATGGAGTTACCGCATGACGCAGATGCTAACGGGGCGTATAATATTGCACGTAAGGGACTGAT GGTCTTGCGTCAAATCCGCGAATCGGGCAAGCCAAAACCGATCTCAAACGCGGATTGGCTTGATTTCGCGCAACAA AATGAGGATTGA SEQ ID NO: 21 ART5_Optimized_2 ATGAGCGCTGTTTTTAAGATCAAGGAGTCGACAATGAAAGATTTCACCCATCAGTACAGTTTATCGAAAACGCTGC GTTTCGAATTGAAACCTGTAGGGGAGACAGCTGAGCGCATCGAAGATTTTAAGAACCAAGGCTTAAAATCGATTGT TGAAGAGGATCGCCAGCGTGCAGAAGATTACAAAAAAATGAAGCGCATCTTGGATGACTATCACAAAGAGTTTATT GAAGAGGTTCTTAATGACGATATTTTCACCGCCAATGAAATGGAATCGGCTTTCGAGGTGTATCGTAAGTACATGG CTTCCAAAAATGATGACAAACTGAAAAAGGAAATTACTGAGATCTTCACTGATTTGCGTAAAAAAATCGCTAAGGC GTTCGAGAATAAATCTAAAGAATACTGTCTTTACAAAGGTGATTTTTCAAAATTGATCAACGAAAAAAAGACGGGT AAAGACAAAGGGCCAGGGAAGCTTTGGTATTGGCTGAAGGCGAAGGCAGACGCAGGCGTTAACGAGTTTGGTGACG GGCAGACATTCGAGCAAGCCGAGGAGGCATTAGCCAAGTTTAATAACTTCAGCACGTATTTTACGGGTTTTAACCA AAACCGTGACAACATTTACACTGACGCAGAGCAACAGACTGCAATCTCATACCGCGTTATTAATGAAAACATGACT CGTTACTTTGACAATTGTATCCGCTATAGCAGTATCGAGAATAAGTACCCGGAGCTGGTTAAACAGTTGGAACCCT TAAGCGGGAAGTTCGCTCCAGGGAACTATAAGGATTATCTGTCCCAGACTGCAATCGATATCTATAATGAGGCTGT AGGGCATAAGTCAGACGATATCAATGCGAAGGGGATCAATCAGTTTATCAACGAATACCGCCAACGTAACTCGATC AAGGGCCGCGAATTACCGATTATGTCTGTGTTATACAAACAAATTTTATCAGACATTAACAAAGACTTAATTATCG ACAAGTTCGAGAACGCCGGAGAGCTTCTTGATGCTGTAAAGACTCTTCACCGTGAATTGACCGATAAGAAGATCTT ATTGAAAATTAAACAAACACTTAACGAGTTCTTAACCGAGGACAATTCGGAAGACATTTACATCAAAAGTGGTACT GATCTGACTGCTGTTTCTAACGCGATCTGGGGAGAGTGGTCCGTTATCCCAAAAGCTTTAGAAATGTATGCTGAGA ACATTACGGATATGAATGCAAAGGCTCGTGAGAAATGGTTAAAGCGCGAAGCGTATCATTTGAAGACTGTACAAGA GGCGATCGAAGCGTATCTTAAGGATAACGAGGAGTTTGAGACCCGTAACATCTCGGAGTACTTTACTAATTTTAAA TCCGGCGAGAACGATTTAATTCAGGTGGTTCAATCAGCATACGCAAAAATGGAATCGATTTTTGGAATTGAAGACT TTCATAAGGATCGTCGCCCCGTGACAGAATCTGGCGAACCGGGTGAAGGGTTCCGTCAGGTCGAGTTGGTGCGCGA ATACTTGGACTCATTAATTAATGTTGAGCACTTTATTAAACCGCTTCATATGTTTCGTTCAGGCAAACCCATTGAA CTTGAGGACTGTAATTCTAATTTTTATGACCCGTTAAACGAGGCATACAAGGAATTAGACGTAGTGTTCGGTATTT ACAACAAAGTACGCAACTACGTCACCCAGAAGCCATACTCGAAAGACAAATTTAAAATCAATTTTCAGAACTCTAC TTTGTTAGATGGTTGGGACGTCAATAAGGAATCAGCCAACTCATCAGTACTGTTACTTAAAAACGGCAAATATTAC CTGGGTGTCATGAAACAAGGGGCGAGTAATATCTTGAATTACCGTCCCGAGCCTTCTGATTCTAAGAATAAAATTA ACGCTAAAAAGCAGTTGAGCGAGATCGCCTTAGCTGGCGCCACGGACGATTACTACGAGAAAATGATCTATAAACT GTTGCCTGATCCGGCAAAGATGCTGCCGAAAGTTTTTTTTAGCGCCAAGAACATTGAATTTTACAACCCTAGTCAA GAGATCATCTACATCCGCGAAAATGGTCTTTTCAAGAAAGACGCAGGAGATAAAGAATCGCTTAAGAAGTGGATTG GCTTTATGAAAACGAGTCTTTTGAAGCACCCGGAGTGGGGTTCTTATTTCAATTTTGAGTTTGAGCCTGCAGAGGA CTACCAGGATATCTCCATTTTTTATAAGCAAGTGGCAGAACAGGGATATTCCGTGACGTTCGACAAGATCAAGACA AGCTATATCGAAGAAAAGGTTGCCAGTGGAGAGCTGTACCTTTTCGAGATCTATAATAAAGATTTCTCTCCTCACT CCAAAGGCCGTCCGAACTTGCATACAATGTACTGGAAAAGTCTGTTCGAAAAAGAGAATCTGCAGAACTTGGTGAC AAAATTGAATGGAGAAGCAGAAGTTTTTTTCCGCCAACACAGTATTAAGCGTAACGAAAAAGTCGTACACCGCGCG AACCGTCCAATCCAAAATAAGAATCCGTTGACAGAGAAAAAACAGTCAATCTTTGAATACGATCTTGTGAAGGATC GCCGCTTTACAAAAGACAAGTTTTTTTTACACTGTCCTATCACATTAAATTTTAAAGAAGCTGGACCCGGCCGTTT CAACGATAAGGTCAACAAGTACATCGCCGGGAACCCCGATATCCGTATTATCGGCATTGACCGTGGAGAGCGCCAC TTACTGTATTATTCTTTAATTGATCAGAGCGGACGTATCGTAGAGCAAGGGACGCTTAACCAAATTACCTCAACTC TTAATTCTGGGGGTCGTGAGATCCCGAAGACTACTGATTACCGCGGATTGTTGGACACGAAGGAAAAAGAACGTGA CAAAGCACGTAAGAGCTGGTCCATGATCGAGAATATTAAAGAACTTAAAAGTGGGTATCTGTCTCACATCGTCCAT AAGTTGGCGAAGCTTATGGTTAAAAATAACGCGGTCGTCGTATTGGAGGATTTGAATTTTGGTTTCAAACGCGGAC GTTTTAAGGTAGAGAAGCAGGTGTATCAGAAATTCGAAAAAGCTTTAATTGAAAAGCTTAACTATCTGGTATTTAA GGACGCACGTCCGGCTGAACCAGGCCATTATTTAAACGCATACCAATTAACGGCCCCGCTTGAGAGTTTTAAGAAA TTAGGTAAGCAGTCAGGCTTTATTTATTACGTTCCAGCGTGGAACACCAGCAAGATTGACCCCGTAACCGGGTTCG TAAATCAATTCTACATTGAGAAGAACTCTATGCAGTACTTGAAAAACTTCTTTGGCAAGTTCGATTCCATCCGTTT CAATCCAGACAAAAACTATTTCGAGTTCGGATTCGACTACAAAAATTTCCACAATAAAGCTGCAAAATCGAAGTGG ACGATTTGCACACACGGAGACAAGCGTAGTTGGTATAACCGCAAGCAGCGTAAATTGGAGATTCACAATGTCACCG AAAACTTAGCTTCGTTGTTATCCGGCAAGGGGATTAATTTTGCTGACGGCGGGTCTATCAAAGACAAGATCTTATC TGTGGATGACGCATCCTTTTTCAAGTCATTAGCGTTCAATTTCAAGTTAACAGCGCAACTGCGCCATACATTCGAA GACAACGGAGAGGAAATCGACTGCATCATCTCCCCCGTTGCGGCAGCAGACGGAACTTTCTTTTGCTCTGAAACAG CGAAAAAATTAAATATGGAGCTGCCACACGATGCTGATGCCAATGGAGCATATAACATCGCCCGCAAAGGCTTAAT GGTTTTACGCCAAATCCGCGAATCTGGCAAACCAAAACCCATCTCGAATGCTGATTGGTTGGACTTTGCTCAGCAA AACGAAGACTGA SEQ ID NO: 22 ART5_Optimized_3 ATGAGTGCTGTCTTTAAAATTAAGGAGTCCACGATGAAGGACTTTACTCATCAGTATTCACTTTCCAAAACTCTTC GCTTCGAGTTAAAACCCGTCGGAGAAACAGCAGAACGTATCGAAGATTTCAAAAATCAAGGCCTTAAGTCGATTGT GGAAGAGGACCGTCAGCGCGCCGAGGACTATAAAAAAATGAAACGTATTTTGGACGATTATCACAAGGAATTCATT GAGGAGGTATTGAATGATGATATCTTTACAGCTAACGAAATGGAATCTGCTTTCGAGGTGTATCGTAAGTACATGG CCTCCAAGAATGATGATAAATTGAAAAAGGAAATCACCGAAATTTTCACGGATCTGCGCAAAAAAATTGCGAAGGC ATTTGAGAATAAAAGCAAAGAGTACTGCTTATACAAAGGAGACTTTTCAAAATTGATCAACGAGAAAAAAACGGGG AAGGATAAGGGTCCGGGAAAGCTGTGGTACTGGCTTAAAGCAAAAGCAGATGCTGGGGTGAACGAGTTTGGAGACG GCCAAACCTTTGAGCAAGCGGAGGAAGCCCTTGCTAAATTTAATAATTTTTCCACTTATTTCACAGGCTTCAATCA AAACCGTGATAATATTTACACCGATGCTGAGCAACAAACAGCGATCTCGTACCGCGTTATCAATGAGAATATGACC CGTTACTTTGATAACTGTATTCGTTATTCATCAATTGAGAACAAGTACCCCGAACTGGTGAAACAGTTGGAGCCTC TGTCCGGCAAGTTCGCTCCAGGGAATTATAAAGACTATCTTTCGCAGACTGCAATCGATATCTATAATGAGGCTGT GGGCCACAAATCTGACGATATCAACGCGAAGGGCATTAATCAATTCATCAACGAGTACCGTCAACGTAATTCCATC AAGGGGCGCGAGTTGCCGATTATGAGTGTACTTTACAAGCAAATCCTGAGCGACATCAACAAGGACCTGATCATTG ATAAGTTTGAGAACGCCGGCGAACTGCTGGATGCAGTCAAAACTTTGCATCGCGAGCTTACCGATAAGAAGATCTT GCTTAAAATCAAACAAACTCTGAACGAATTTTTAACCGAAGATAATTCAGAGGACATCTATATCAAATCCGGTACT GACTTAACAGCGGTGAGCAACGCGATCTGGGGCGAGTGGTCAGTCATCCCGAAAGCATTAGAAATGTATGCCGAGA ATATCACCGACATGAATGCCAAAGCCCGTGAAAAATGGCTGAAACGTGAGGCATACCATCTTAAGACTGTACAAGA AGCGATTGAAGCATACCTGAAGGATAATGAAGAATTCGAAACTCGTAACATCTCAGAGTATTTCACAAATTTTAAA AGCGGAGAGAATGACTTAATTCAAGTAGTCCAAAGCGCTTATGCGAAGATGGAGAGCATTTTTGGTATTGAGGACT TTCATAAAGACCGTCGCCCCGTAACGGAGAGTGGGGAACCAGGAGAAGGGTTCCGTCAAGTTGAGTTAGTTCGTGA GTATTTAGACTCTTTGATTAACGTTGAGCATTTCATTAAACCACTGCATATGTTTCGCTCCGGAAAGCCTATTGAG TTGGAAGACTGCAACTCCAATTTTTATGACCCTCTTAATGAAGCCTACAAAGAATTAGACGTAGTCTTTGGAATTT ATAACAAGGTCCGCAACTATGTCACGCAAAAACCTTATTCAAAAGACAAATTTAAGATCAACTTCCAGAACTCGAC GCTTCTTGACGGATGGGACGTGAACAAAGAGAGCGCCAATTCATCGGTTTTACTGCTGAAAAACGGAAAATACTAC TTGGGAGTAATGAAACAAGGAGCCAGTAACATTCTGAATTACCGCCCTGAGCCTTCAGACTCTAAAAACAAGATCA ACGCTAAAAAACAGCTGAGTGAGATCGCATTAGCCGGTGCAACAGATGACTATTACGAAAAAATGATTTACAAGTT ATTACCCGATCCGGCCAAAATGCTTCCGAAAGTCTTTTTTTCGGCCAAAAATATTGAGTTTTATAATCCTTCACAA GAGATTATCTACATCCGTGAAAATGGCCTTTTCAAGAAGGATGCGGGCGATAAGGAGTCTTTGAAAAAGTGGATTG GCTTTATGAAGACAAGTTTATTGAAACACCCAGAGTGGGGTAGTTATTTCAACTTTGAGTTTGAGCCCGCAGAGGA TTATCAAGACATTTCTATCTTCTATAAACAGGTGGCTGAACAGGGTTATTCTGTCACGTTCGACAAAATTAAAACC TCCTATATCGAGGAGAAAGTTGCATCCGGCGAGCTTTATCTTTTCGAGATCTACAACAAAGACTTTAGCCCTCATT CTAAAGGCCGCCCGAACTTACATACCATGTATTGGAAGTCTCTTTTCGAAAAAGAAAATCTGCAAAATTTGGTGAC CAAACTGAATGGTGAGGCCGAAGTTTTCTTTCGCCAGCACAGCATCAAACGCAACGAAAAAGTGGTGCATCGCGCC AATCGTCCCATTCAGAATAAGAACCCCCTTACGGAGAAGAAGCAGTCTATTTTTGAGTACGATTTAGTGAAAGACC GTCGTTTTACTAAGGATAAGTTTTTTCTGCATTGTCCGATCACTTTAAATTTCAAAGAAGCTGGTCCTGGCCGTTT CAACGACAAGGTGAACAAGTACATCGCCGGCAATCCAGATATCCGTATTATTGGGATCGATCGCGGTGAGCGCCAT TTACTTTACTACTCGCTGATCGACCAAAGCGGGCGTATTGTCGAGCAAGGAACCTTGAATCAGATCACGAGTACAC TGAACTCAGGAGGGCGTGAGATTCCCAAAACAACCGACTATCGTGGATTGTTAGACACAAAAGAAAAAGAACGTGA TAAAGCCCGCAAGTCTTGGAGCATGATTGAGAACATTAAAGAACTTAAATCGGGATACTTATCCCACATCGTTCAC AAACTTGCAAAATTGATGGTGAAGAACAATGCAGTAGTAGTTTTGGAGGACCTGAACTTTGGTTTTAAACGTGGGC GCTTCAAGGTGGAAAAACAGGTGTATCAGAAGTTTGAGAAGGCATTAATTGAGAAGTTAAATTATCTGGTGTTTAA AGACGCTCGCCCTGCCGAGCCCGGTCACTATTTGAATGCTTATCAGTTGACGGCGCCCTTGGAAAGTTTTAAGAAG TTAGGTAAACAGTCTGGATTCATCTATTACGTCCCGGCGTGGAACACTAGCAAAATTGACCCAGTCACTGGTTTCG TAAATCAGTTCTACATTGAAAAAAACTCTATGCAGTATTTGAAGAATTTTTTCGGAAAATTCGATTCGATCCGTTT TAATCCGGATAAAAATTACTTTGAGTTCGGATTTGACTACAAAAACTTCCACAACAAGGCGGCGAAAAGTAAGTGG ACCATCTGCACCCACGGGGATAAGCGCAGTTGGTATAACCGCAAGCAGCGTAAGCTGGAGATCCACAACGTGACAG AGAACCTGGCTTCGTTATTGTCGGGCAAGGGAATTAACTTTGCTGACGGGGGCTCTATCAAGGACAAAATCCTTAG TGTTGATGATGCAAGCTTCTTCAAATCCTTGGCGTTTAACTTTAAGCTTACCGCCCAACTGCGCCATACCTTCGAG GACAATGGTGAAGAAATTGATTGTATCATCAGCCCGGTTGCAGCGGCGGACGGTACGTTCTTCTGTTCAGAGACAG CCAAGAAGTTGAACATGGAATTGCCCCATGACGCAGATGCTAATGGGGCCTACAACATCGCACGTAAGGGGCTGAT GGTGCTTCGTCAGATCCGCGAAAGCGGAAAACCTAAACCTATCTCTAATGCCGATTGGTTGGATTTCGCACAACAG AACGAAGATTGA SEQ ID NO: 23 ART6_WT ATGCAAGAGCGTAAAAAAATATCGCATCTTACACACAGAAATTCAGTTCAAAAAACAATTAGGATGCAAC TGAATCCTGTAGGTAAAACAATGGATTATTTTCAAGCAAAGCAAATTCTTGAAAATGATGAAAAGCTTAA AGAGAACTATCAGAAAATCAAGGAAATAGCAGACAGGTTTTACAGAAATTTAAATGAGGATGTACTTTCA AAAACCGGGTTAGATAAATTAAAAGATTATGCTGAAATTTACTATCACTGTAATACGGATGCAGAACGAA AAAGACTTGACGAATGTGCATCGGAATTAAGGAAAGAAATCGTCAAAAATTTTAAGAATCGAGATGAGTA TAACAAACTATTCAATAAAAAGATGATTGAGATAGTTCTTCCCCAGCATCTTAAAAATGAGGACGAAAAG GAAGTTGTAGCCTCATTTAAAAATTTCACAACATACTTTACAGGTTTCTTCACTAACAGAAAAAATATGT ATTCGGACGGAGAAGAATCCACGGCAATCGCATATAGATGCATTAACGAAAATTTGCCTAAGCATCTTGA CAATGTCAAGGCCTTTGAAAAAGCAATTTCTAAACTATCCAAAAACGCAATTGATGATTTAGATGCCACT TATTCCGGCTTATGCGGTACAAATTTGTATGATGTTTTTACAGTTGATTATTTTAACTTTTTGCTTCCAC AATCCGGAATTACCGAATATAACAAAATCATCGGCGGTTACACAACAAGCGACGGTACAAAAGTTAAGGG TATTAACGAATATATAAATTTGTACAATCAACAAGTATCCAAACGGGATAAAATTCCTAATCTTAAAATT TTGTATAAACAAATTTTAAGTGAGAGTGAAAAGGTATCATTCATACCGCCAAAGTTTGAAGATGACAACG AACTTTTATCGGCTGTTTCAGAGTTTTACGCAAACGACGAAACCTTTGACGGGATGCCATTAAAAAAAGC AATTGATGAAACAAAGCTATTATTCGGCAATTTAGATAATTCCTCTCTTAATGGAATTTACATTCAAAAT GACCGATCCGTGACAAATCTGTCAAACAGCATGTTCGGTTCTTGGTCAGTAATAGAAGATTTATGGAACA AAAATTATGACTCCGTTAATTCAAACAGCAGAATCAAAGATATTCAAAAGCGTGAAGACAAAAGAAAAAA AGCATACAAAGCAGAAAAGAAACTTTCACTTTCATTTTTACAGGTTTTGATTTCCAATTCTGAAAATGAT GAAATCAGAGAAAAGTCTATCGTAAATTACTACAAGACTTCTTTAATGCAACTTACCGACAATTTGTCAG ACAAATACAACGAAGCAGCACCTCTGCTCAACAAAAGTTACGCTAATGAAAAAGGTTTGAAAAATGACGA TAAATCTATTTCATTAATTAAAAATTTTCTTGATGCCATAAAAGAAATTGAAAAATTCATCAAGCCTTTG TCCGAAACTAATATTACAGGTGAGAAAAATGATTTGTTTTACAGTCAGTTCACACCATTACTTGATAATA TCAGCAGAATAGACATATTATATGATAAGGTCAGAAACTACGTTACACAAAAACCGTTTTCAACCGATAA AATCAAGCTTAACTTTGGCAATTCACAGCTATTAAACGGCTGGGATCGAAACAAAGAAAAAGACTGCGGT GCCGTTTGGCTTTGTAGGGATGAAAAGTATTATCTTGCAATCATAGATAAAAGTAATAATAGTATTTTGG AAAATATTGATTTTCAAGACTGCGATGAAAACGATTGTTACGAAAAGATAATTTACAAGCTTCTCCCCGG TCCAAATAAAATGCTTCCAAAAGTTTTCTTTTCAGAAAAGTGCAAGAAACTTTTGTCACCGTCAGACGAA ATACTTAAAATTCGTAAAAACGGCACTTTCAAAAAAGGTGATAAGTTCAGCCTTGATGATTGCCATAAGT TAATTGATTTCTACAAAGAATCATTCAAAAAGTACCCAAATTGGTTAATTTATAACTTTAAATTTAAAAA CACAAACGAATATAACGATATCCGCGAATTTTATAATGATGTTGCTTCACAGGGATATAATATTTCAAAA ATGAAAATCCCGACATCATTTATTGACAAACTTGTAGATGAAGGAAAAATCTATCTTTTCCAACTCTACA ACAAAGACTTTTCACCGCATAGCAAAGGTACTCCTAATCTGCATACACTTTATTTTAAAATGTTGTTTGA TGAAAGAAATCTTGAAGATGTGGTGTACAAGCTTAACGGTGAGGCAGAAATGTTTTATCGTCCTGCAAGT ATAAAATATGACAAACCAACTCATCCCAAAAACACACCGATAAAAAATAAAAATACACTCAATGATAAAA AAACAAGCACTTTTCCTTATGACTTAATTAAAGATAAACGCTACACTAAGTGGCAGTTTTCACTTCACTT CCCTATTACCATGAATTTTAAAGCTCCGGATAGGGCAATGATCAATGATGATGTCAGAAATCTGCTGAAA TCCTGCAACAACAATTTCATCATAGGAATTGACAGAGGCGAAAGAAACTTGCTTTATGTCAGCGTAATTG ACAGCAACGGTGCTATAATATACCAGCACTCACTCAATATTATCGGAAACAAGTTTAAAGGAAAAACATA CGAAACTAACTACCGGGAAAAACTTGCAACAAGAGAAAAAGAGCGTACGGAACAGCGCCGTAACTGGAAA GCAATTGAGAGTATAAAAGAACTCAAAGAGGGCTATATCAGTCAGGCTGTGCATGTTATATGTCAGCTTG TTGTCAAGTACGATGCAATCATCGTTATGGAAAAGCTGACTGACGGATTCAAACGAGGCAGAACAAAGTT TGAAAAACAGGTTTATCAGAAATTTGAAAAAATGCTGATTGACAAACTGAATTACTATGTTGACAAAAAG CTTGATCCAGACGAAGGAGGCGGTTTACTTCATGCCTACCAGCTTACGAACAAGCTTGAGAGCTTTGATA AACTTGGCATGCAAAGCGGTTTTATTTTCTATGTTCGTCCTGATTTTACAAGCAAAATTGATCCCGTTAC CGGCTTTGTAAATTTGTTGTATCCTCGATATGAAAACATTGACAAAGCCAAAGATATGATTTCAAGATTT GACGATATAGGATACAATGCCGGCGAGGACTTTTTTGAATTTGACATTGATTACGATAAGTTTCCAAAGA CTGCGTCTGACTATCGCAAGAGGTGGACAATCTGTACTAACGGCGAAAGGATTGAAGCTTTCAGAAATCC CGCAAAGAATAACGAATGGAGTTATCGTACAATAATTCTTGCAGAAAAATTCAAAGAATTATTTGATAAC AATTCTATAAATTATCGTGATTCTGACGATTTGAAAGCTGAAATTCTTTCACAGACAAAGGGCAAATTTT TTGAGGATTTCTTCAAATTATTAAGACTTACCCTACAGATGCGAAACAGTAACCCTGAAACAGGCGAGGA CCGTATTCTTTCTCCCGTCAAGGACAAAAACGGCAATTTTTACGACAGTTCAAAATATGATGAAAAGAGC AAGCTTCCGTGTGATGCCGATGCAAACGGTGCGTACAACATTGCCCGCAAAGGTTTGTGGATTGTTGAAC AATTCAAAAAATCCGATAATGTTTCAACTGTCGGACCGGTAATCCACAATGACAAATGGCTGAAATTTGT TCAGGAGAATGATATGGCGAATAATTAA SEQ ID NO: 24 ART6_Optimized_1 ATGCAAGAACGTAAGAAAATTAGCCATCTTACCCACCGTAATAGTGTTCAAAAGACAATCCGCATGCAGTTGAACC CCGTTGGGAAGACAATGGACTACTTCCAGGCTAAGCAAATCTTGGAGAACGATGAAAAATTAAAGGAGAATTACCA AAAGATTAAGGAGATTGCCGACCGTTTCTACCGTAACCTGAACGAAGACGTCTTGTCTAAGACCGGTTTAGACAAA CTTAAAGATTACGCCGAGATCTACTATCATTGTAACACCGATGCCGAGCGCAAGCGTTTAGACGAGTGCGCCAGTG AGCTGCGCAAAGAAATTGTAAAAAATTTTAAAAACCGTGACGAATACAATAAGCTGTTTAATAAGAAGATGATCGA GATCGTCTTACCTCAACACCTTAAAAACGAAGACGAAAAGGAGGTAGTAGCGTCCTTCAAGAACTTTACGACTTAT TTTACAGGGTTCTTTACTAATCGTAAGAATATGTACTCAGATGGAGAAGAGTCAACAGCTATTGCTTACCGCTGTA TTAATGAAAACTTACCAAAACACTTAGACAACGTGAAAGCTTTCGAAAAGGCCATCTCTAAACTTAGTAAAAACGC AATCGACGACCTTGATGCCACGTACTCCGGGTTATGCGGTACAAACCTGTACGACGTCTTTACGGTTGACTACTTT AACTTCTTGCTTCCACAGAGCGGCATCACCGAATATAATAAAATCATCGGTGGCTATACTACTAGCGATGGAACAA AGGTAAAGGGAATTAACGAGTACATCAATTTGTACAATCAGCAAGTGTCGAAGCGTGACAAAATTCCTAATCTTAA GATTCTTTATAAGCAGATCCTTTCCGAGAGCGAAAAAGTTTCTTTCATTCCGCCTAAGTTCGAAGACGATAACGAA TTACTGAGCGCTGTCAGTGAGTTCTATGCTAACGACGAGACTTTTGACGGCATGCCACTGAAGAAAGCGATTGACG AAACCAAGCTGTTATTCGGTAATTTGGATAACTCTAGCCTTAATGGCATTTATATCCAGAACGATCGTTCTGTAAC GAATTTGTCAAACTCGATGTTTGGGTCGTGGAGCGTAATCGAAGACTTATGGAATAAGAACTACGACAGCGTAAAT AGCAACAGTCGTATTAAAGATATTCAGAAGCGTGAAGATAAGCGCAAGAAAGCATATAAAGCCGAAAAGAAGCTTT CTTTATCCTTCTTGCAGGTCTTGATCTCGAATTCAGAAAACGATGAAATCCGTGAGAAGTCGATTGTAAATTATTA CAAAACCAGTCTGATGCAACTTACTGATAACCTGTCAGATAAGTATAACGAAGCAGCCCCTCTGTTAAATAAATCT TATGCTAATGAGAAGGGATTAAAAAATGACGACAAATCTATTTCGTTGATTAAGAACTTCTTAGATGCTATCAAGG AGATTGAAAAGTTCATCAAACCTTTAAGTGAGACAAATATCACGGGAGAGAAGAATGACCTGTTCTATAGCCAATT CACTCCTTTATTAGACAACATTTCCCGTATTGATATCCTGTATGATAAGGTTCGTAATTACGTTACCCAAAAACCA TTCTCCACCGACAAGATCAAACTGAACTTTGGGAACAGCCAATTATTGAACGGATGGGATCGCAACAAGGAAAAGG ATTGTGGTGCTGTGTGGTTGTGCCGTGATGAAAAATATTATTTAGCGATTATTGACAAATCAAACAATTCGATTTT AGAAAATATCGATTTTCAGGACTGTGACGAAAATGATTGTTATGAAAAAATTATCTATAAATTGTTGCCCGGCCCC AACAAGATGCTGCCCAAGGTGTTCTTCTCGGAAAAATGCAAGAAATTATTATCACCCTCAGATGAAATTTTAAAAA TTCGCAAGAATGGGACATTCAAGAAAGGGGATAAGTTCAGTTTGGACGATTGCCATAAGCTGATCGACTTTTATAA AGAAAGCTTCAAGAAATATCCAAACTGGTTAATTTATAATTTTAAGTTTAAAAACACAAACGAGTACAACGACATC CGTGAATTTTATAACGACGTCGCAAGTCAAGGTTATAATATCAGTAAAATGAAGATTCCAACGAGTTTCATTGACA AGTTGGTTGACGAGGGTAAGATCTACTTGTTTCAGCTTTACAATAAGGATTTTTCTCCTCATTCAAAAGGTACCCC CAACCTTCATACTCTGTATTTTAAAATGCTTTTTGATGAGCGCAACTTAGAGGACGTTGTTTACAAGTTGAACGGG GAAGCGGAGATGTTTTATCGTCCAGCATCAATTAAGTATGATAAACCCACGCATCCCAAAAACACGCCAATCAAGA ACAAGAATACACTGAACGATAAAAAGACATCGACCTTCCCCTACGATTTAATTAAGGATAAGCGTTACACGAAATG GCAGTTCTCCTTGCACTTTCCGATTACCATGAACTTCAAGGCCCCCGATCGTGCCATGATCAATGACGATGTACGT AACCTTTTAAAGTCTTGTAATAACAATTTCATCATTGGCATTGACCGTGGAGAGCGCAACTTGTTGTATGTCAGTG TGATTGACAGTAATGGGGCAATTATCTACCAGCACTCATTAAATATTATTGGCAATAAATTCAAAGGTAAGACTTA TGAGACCAACTATCGCGAGAAGCTGGCAACACGCGAGAAGGAGCGTACGGAACAGCGCCGCAACTGGAAAGCTATT GAGTCTATTAAGGAGCTTAAGGAGGGTTACATCAGTCAGGCCGTACATGTGATCTGTCAGTTGGTGGTCAAATACG ATGCGATTATCGTGATGGAGAAGCTGACAGACGGCTTTAAGCGTGGTCGTACGAAGTTTGAGAAACAAGTCTACCA AAAGTTTGAAAAGATGCTGATCGATAAGCTTAACTATTATGTCGATAAGAAATTAGATCCCGACGAGGGGGGGGGA TTGCTTCATGCATACCAGCTTACTAACAAATTAGAAAGTTTCGACAAATTAGGTATGCAGAGTGGGTTTATTTTCT ATGTCCGTCCCGATTTTACGAGTAAGATCGATCCTGTTACTGGGTTTGTCAACCTGTTGTACCCTCGTTATGAGAA CATTGACAAGGCGAAGGATATGATCTCTCGCTTTGACGACATTGGGTACAATGCTGGTGAGGACTTCTTTGAATTC GACATTGATTATGACAAGTTTCCTAAGACTGCCTCCGACTACCGTAAACGTTGGACGATTTGTACTAATGGGGAAC GTATCGAGGCTTTCCGTAATCCAGCGAAAAACAACGAGTGGTCTTACCGCACCATCATTTTGGCGGAGAAATTCAA AGAGCTTTTCGATAACAATAGTATCAACTACCGCGATTCGGACGACTTAAAGGCTGAGATCCTTTCTCAAACGAAA GGTAAATTTTTCGAAGATTTTTTTAAACTGTTGCGTCTTACCTTGCAAATGCGCAATAGTAACCCGGAGACTGGTG AGGATCGTATCTTGTCCCCTGTCAAGGACAAAAACGGTAATTTCTACGATAGCTCCAAATACGACGAGAAATCAAA GTTGCCATGTGATGCCGATGCAAACGGGGCGTACAACATTGCGCGCAAAGGCTTATGGATTGTCGAACAGTTCAAG AAGTCTGATAATGTGTCGACTGTCGGACCTGTAATCCACAACGACAAGTGGCTTAAGTTTGTGCAAGAGAATGATA TGGCAAATAACTAA SEQ ID NO: 25 ART6_Optimized_2 ATGCAAGAGCGTAAGAAAATTTCACACCTTACACATCGTAATAGTGTCCAGAAAACGATCCGTATGCAACTTAATC CAGTCGGGAAAACTATGGATTACTTTCAGGCAAAGCAAATTTTAGAAAATGACGAGAAATTAAAAGAAAACTACCA AAAGATCAAAGAGATCGCTGACCGTTTTTATCGCAACTTAAACGAGGATGTCCTTAGCAAAACAGGGCTGGACAAG TTAAAGGATTACGCGGAGATTTATTACCACTGCAACACCGACGCTGAGCGTAAACGTCTTGACGAGTGTGCATCGG AGTTACGCAAGGAAATCGTAAAGAACTTTAAGAATCGCGACGAGTACAATAAGTTATTCAATAAAAAAATGATTGA AATCGTGCTTCCCCAACATTTGAAAAACGAAGATGAGAAGGAGGTGGTCGCGTCGTTCAAAAACTTTACCACCTAT TTCACCGGGTTTTTTACCAACCGTAAGAACATGTATTCGGACGGTGAGGAGTCTACTGCAATTGCGTACCGTTGCA TTAATGAAAACCTTCCTAAACACTTAGACAACGTCAAAGCTTTTGAAAAGGCTATCTCGAAACTTAGTAAAAACGC CATCGATGATTTAGACGCCACGTATAGCGGCCTTTGCGGGACAAATTTATACGACGTGTTTACAGTAGACTACTTT AACTTCTTGCTTCCTCAGTCCGGCATTACTGAGTATAACAAGATCATTGGCGGATACACCACGTCTGACGGTACCA AAGTCAAAGGGATCAATGAGTACATTAATTTATACAACCAACAAGTATCAAAGCGCGATAAAATCCCGAACCTGAA GATTCTTTATAAGCAAATTCTGTCTGAAAGTGAGAAAGTATCCTTTATCCCACCGAAATTTGAGGACGACAACGAA CTGTTGTCGGCTGTTTCTGAGTTCTACGCAAATGATGAGACCTTTGACGGTATGCCTTTAAAAAAGGCCATCGATG AAACAAAATTGCTGTTTGGGAACTTGGATAATTCCTCTCTTAATGGGATTTACATTCAGAACGACCGCAGCGTAAC GAATTTGTCCAATTCAATGTTTGGATCGTGGTCCGTGATCGAAGACCTGTGGAATAAGAATTACGATTCAGTCAAT TCCAACAGTCGCATTAAGGACATCCAAAAGCGCGAAGACAAGCGCAAGAAAGCATATAAGGCCGAAAAGAAACTGT CTTTATCATTTCTTCAGGTTTTAATTAGTAACTCTGAGAACGATGAGATTCGCGAGAAGTCCATCGTGAACTATTA TAAGACGAGTTTAATGCAGTTAACAGATAACTTATCTGACAAGTACAATGAAGCGGCTCCCTTGTTGAATAAGTCT TACGCCAATGAAAAAGGTCTTAAGAATGATGACAAGTCTATCAGCTTAATCAAGAATTTTTTGGACGCGATTAAGG AAATCGAAAAATTCATTAAACCATTGTCCGAGACTAACATTACCGGAGAGAAAAACGACCTGTTCTACTCCCAATT CACACCGTTGCTGGATAACATCTCACGTATCGACATCCTTTATGATAAGGTGCGTAACTACGTTACTCAAAAGCCC TTTTCCACCGACAAGATTAAGTTGAATTTTGGTAACAGTCAATTGCTGAACGGCTGGGATCGCAACAAGGAAAAAG ACTGTGGTGCTGTCTGGTTATGTCGCGACGAAAAATACTATCTGGCTATTATTGATAAATCTAATAACTCTATCTT AGAAAACATCGACTTTCAGGACTGCGACGAGAACGACTGCTACGAAAAGATTATCTATAAGTTACTTCCTGGCCCC AACAAGATGTTACCGAAGGTCTTTTTTAGCGAAAAGTGCAAGAAATTGCTGAGTCCATCTGATGAGATTCTTAAAA TTCGCAAGAATGGCACTTTCAAGAAGGGGGACAAGTTTTCCCTTGATGACTGCCACAAACTTATTGACTTCTATAA AGAAAGTTTTAAGAAATATCCTAACTGGTTAATTTACAACTTCAAATTCAAAAATACTAACGAATACAATGATATT CGTGAGTTCTATAATGACGTCGCCTCCCAGGGTTATAACATCAGTAAAATGAAGATCCCTACCTCCTTTATCGATA AACTTGTTGATGAAGGAAAGATCTATTTATTTCAACTGTATAATAAAGATTTTTCGCCCCATAGCAAAGGCACACC TAATTTACATACGCTTTACTTCAAAATGCTTTTTGATGAGCGTAATTTAGAGGATGTGGTCTACAAACTTAATGGC GAGGCTGAGATGTTTTACCGCCCTGCATCTATTAAGTATGATAAGCCAACACACCCCAAAAATACGCCAATTAAAA ACAAGAATACGCTTAACGATAAAAAAACGAGTACCTTCCCGTATGATCTTATTAAGGATAAGCGTTACACGAAGTG GCAGTTTTCTCTGCATTTTCCAATCACAATGAACTTCAAGGCCCCGGACCGTGCGATGATCAACGACGACGTACGT AACTTGCTGAAATCTTGTAACAACAACTTCATTATCGGCATTGATCGTGGCGAACGCAATCTGTTATACGTGTCCG TCATCGATTCAAATGGAGCGATCATTTACCAACATAGCCTGAACATCATTGGGAACAAGTTCAAGGGGAAGACCTA TGAGACTAACTACCGTGAAAAATTGGCGACCCGCGAAAAAGAACGCACAGAGCAGCGTCGCAACTGGAAAGCTATC GAGAGCATTAAGGAGCTTAAAGAAGGTTATATCTCACAGGCGGTTCATGTCATCTGCCAATTAGTTGTGAAGTATG ATGCAATTATCGTGATGGAGAAACTGACCGATGGATTCAAACGCGGGCGTACCAAATTCGAAAAACAGGTTTATCA GAAATTTGAAAAAATGCTGATCGACAAGCTGAATTACTATGTAGACAAAAAACTGGATCCAGATGAGGGAGGGGGT CTGCTTCATGCATACCAACTTACTAATAAGTTGGAATCTTTCGATAAGTTGGGAATGCAGTCGGGGTTTATCTTTT ATGTACGCCCTGATTTCACGTCGAAGATTGATCCAGTGACCGGTTTCGTAAACCTTCTGTACCCTCGTTATGAGAA CATTGATAAGGCCAAAGATATGATTTCACGTTTCGATGATATTGGTTATAATGCCGGGGAAGATTTTTTCGAATTT GATATCGACTACGACAAATTCCCAAAAACAGCTTCAGACTATCGTAAACGTTGGACTATTTGTACCAATGGAGAAC GTATTGAAGCTTTCCGTAATCCAGCTAAGAATAATGAATGGAGTTATCGTACGATTATCTTGGCGGAAAAATTCAA AGAATTATTCGACAACAATTCCATTAACTATCGTGACAGCGATGATTTGAAGGCCGAAATCTTGTCACAAACCAAG GGGAAATTTTTCGAAGACTTTTTTAAACTGTTACGTCTGACGCTTCAAATGCGCAATTCAAACCCGGAAACGGGGG AAGATCGTATTCTTAGCCCTGTAAAAGATAAGAATGGAAACTTTTATGACAGTTCCAAGTACGACGAGAAATCTAA ATTACCTTGTGACGCAGATGCAAATGGGGCTTATAACATCGCGCGCAAGGGCCTGTGGATTGTCGAACAGTTTAAG AAGTCGGACAACGTATCGACTGTTGGACCAGTAATTCACAATGACAAATGGCTGAAATTCGTCCAGGAGAATGATA TGGCAAACAATTAA SEQ ID NO: 26 ART6_Optimized_3 ATGCAGGAACGCAAGAAAATTAGCCACCTTACGCATCGTAACAGTGTTCAGAAGACAATCCGCATGCAGCTGAATC CAGTTGGAAAGACGATGGATTACTTCCAAGCCAAACAGATTTTAGAGAACGATGAGAAATTAAAAGAAAACTACCA GAAAATTAAAGAAATTGCTGATCGCTTTTACCGTAACCTGAACGAAGATGTGTTATCGAAGACCGGCTTGGACAAG CTGAAGGACTATGCCGAGATTTATTACCACTGCAATACTGACGCAGAACGTAAACGTCTGGATGAATGCGCCTCCG AACTTCGTAAGGAAATCGTCAAAAACTTCAAGAATCGCGACGAGTATAATAAATTGTTTAATAAAAAGATGATCGA AATCGTGTTGCCACAACACTTAAAAAACGAAGACGAGAAGGAGGTTGTCGCGTCTTTCAAAAACTTCACCACATAT TTTACGGGTTTTTTCACCAACCGTAAGAACATGTACTCTGATGGCGAAGAATCAACTGCTATTGCCTACCGTTGTA TTAACGAGAATCTGCCGAAGCACTTGGACAACGTAAAGGCCTTCGAAAAGGCAATCTCTAAACTGTCTAAGAACGC GATTGACGACTTGGACGCAACATACTCGGGCTTATGCGGGACAAATTTGTATGATGTATTTACTGTGGACTACTTT AATTTTCTTTTGCCGCAGTCAGGTATTACCGAATACAATAAGATCATTGGCGGCTACACCACATCTGACGGCACGA AGGTTAAGGGGATTAACGAGTATATTAATTTATACAATCAGCAAGTATCTAAGCGTGACAAGATTCCAAACCTGAA GATCCTGTACAAGCAGATTCTTTCGGAATCCGAGAAGGTCTCCTTTATCCCACCCAAATTTGAAGACGACAACGAA CTTCTGTCAGCAGTTAGTGAGTTCTACGCGAATGACGAGACATTTGATGGAATGCCGCTGAAAAAAGCTATTGATG AGACAAAGCTTTTATTCGGTAACTTGGATAACTCAAGTTTGAACGGCATCTACATCCAGAATGACCGCTCAGTGAC GAACTTGTCCAATAGTATGTTTGGTAGTTGGTCCGTAATCGAAGATTTATGGAATAAGAATTATGATTCTGTGAAC AGTAACTCCCGTATTAAGGATATCCAAAAGCGTGAAGACAAGCGTAAAAAAGCGTACAAAGCGGAAAAAAAACTGT CCTTATCATTTTTACAAGTACTTATCAGCAACTCGGAGAACGACGAGATCCGTGAAAAGAGCATTGTAAACTATTA CAAGACGAGCCTGATGCAACTTACGGATAACCTTAGTGATAAGTATAACGAGGCAGCACCGTTACTTAATAAATCG TATGCTAACGAAAAGGGACTGAAGAATGACGATAAGTCTATCTCGTTAATTAAAAACTTCTTAGATGCCATCAAGG AAATTGAGAAATTTATTAAGCCACTTAGCGAGACGAACATCACAGGGGAGAAGAACGACTTGTTTTATTCACAATT TACGCCTCTTCTTGATAACATCAGTCGCATTGACATTTTATACGACAAAGTACGTAACTACGTGACACAGAAGCCA TTCTCAACCGACAAAATTAAACTTAACTTCGGTAATTCCCAATTGCTTAATGGTTGGGATCGCAACAAAGAGAAAG ATTGTGGCGCTGTGTGGCTTTGTCGCGACGAGAAGTACTATCTTGCCATCATTGACAAGAGTAATAATAGTATTTT AGAAAATATCGATTTTCAGGACTGTGACGAGAATGATTGCTATGAGAAGATCATTTACAAACTGCTGCCAGGGCCC AACAAAATGTTGCCTAAGGTCTTCTTCAGCGAAAAATGCAAGAAGCTGCTTTCACCTAGTGACGAAATCCTGAAGA TTCGTAAAAATGGCACGTTTAAGAAAGGCGACAAGTTTTCGCTTGATGATTGCCATAAGTTGATCGACTTCTATAA AGAGTCATTTAAAAAGTACCCCAACTGGCTGATCTACAATTTCAAGTTCAAGAACACCAATGAGTATAACGATATT CGTGAGTTCTATAATGATGTTGCATCTCAGGGATATAACATTAGCAAGATGAAAATCCCAACTAGTTTTATCGACA AGCTGGTCGACGAAGGAAAAATTTATCTTTTCCAGCTTTATAACAAAGATTTCTCACCTCATAGTAAAGGCACACC CAATTTGCACACTTTATACTTCAAAATGCTTTTCGACGAACGTAATTTAGAGGATGTGGTGTATAAGTTAAACGGA GAGGCTGAAATGTTTTATCGCCCAGCATCTATTAAGTACGACAAACCTACTCACCCTAAAAACACTCCAATCAAGA ATAAGAACACATTGAACGATAAAAAGACTAGTACTTTTCCATACGATCTGATCAAGGATAAGCGCTACACTAAGTG GCAGTTTAGCTTGCATTTTCCAATTACGATGAACTTCAAAGCACCCGATCGTGCGATGATCAACGATGACGTGCGT AATTTGTTAAAGTCATGTAACAACAACTTTATTATCGGTATTGATCGCGGTGAACGCAACTTATTGTATGTTTCAG TCATCGACTCCAACGGGGCGATTATCTATCAACATTCGCTGAACATCATCGGGAACAAGTTCAAAGGAAAAACATA CGAGACTAATTACCGCGAAAAATTAGCAACCCGCGAAAAGGAACGCACAGAGCAGCGTCGTAACTGGAAGGCGATT GAGTCCATCAAGGAACTGAAGGAAGGATATATCAGCCAGGCTGTGCATGTAATTTGCCAATTGGTTGTGAAGTACG ACGCGATTATCGTTATGGAGAAGCTGACTGATGGATTCAAACGCGGGCGCACAAAATTTGAGAAGCAGGTCTACCA GAAGTTCGAGAAGATGTTGATCGATAAGCTTAACTATTATGTGGACAAAAAACTGGACCCAGATGAAGGCGGGGGA TTACTTCATGCTTATCAACTTACGAACAAACTGGAATCGTTTGACAAGTTAGGAATGCAATCCGGATTTATTTTTT ATGTTCGTCCGGATTTCACTTCTAAAATTGACCCAGTTACAGGCTTTGTAAACCTTCTTTATCCCCGTTACGAGAA TATCGATAAAGCAAAGGACATGATTAGTCGCTTCGATGACATCGGATATAACGCGGGGGAGGACTTCTTCGAATTT GATATTGATTACGACAAATTTCCGAAAACAGCCAGTGACTACCGTAAGCGCTGGACAATTTGTACGAATGGTGAAC GTATCGAGGCGTTTCGTAACCCCGCAAAAAACAACGAATGGAGCTACCGCACTATCATTTTGGCAGAGAAATTTAA GGAGCTTTTCGATAACAACAGCATCAACTACCGCGATAGCGATGATCTTAAGGCCGAAATTTTGTCACAAACTAAG GGGAAATTTTTTGAAGATTTCTTCAAACTGTTACGCTTAACCCTGCAGATGCGTAACTCTAATCCTGAGACAGGGG AGGATCGTATCCTGAGCCCGGTGAAGGATAAAAATGGTAATTTTTATGATAGTTCCAAGTACGACGAAAAAAGCAA GTTGCCTTGTGACGCCGACGCCAATGGTGCTTATAACATTGCGCGCAAGGGACTGTGGATCGTGGAGCAGTTCAAG AAGAGTGATAATGTGAGCACGGTCGGCCCAGTCATTCACAATGACAAATGGTTAAAATTCGTGCAGGAGAATGACA TGGCGAACAATTAA SEQ ID NO: 27 ART7_WT GTGAACATTTTAAAAGAGAATTATATGAAAGAAATTAAAGAACTAACAGGCTTGTATTCTTTAACTAAGA CTATTGGGGTAGAATTAAAGCCAGTGGGTAAGACGCAAGAGCTCATTGAAGCTAAAAAGCTTATTGAGCA GGATGATCAGCGTGCCGAAGATTACAAAATAGTAAAGGATATTATTGATCGTTATCATAAGGATTTTATC GATAAGTGTCTTAACTGTGTTAAAATCAAAAAAGATGATTTGGAGAAATATGTGTCATTGGCAGAAAACT CTAATAGAGATGCTGAGGATTTTGACAAAATCAAGACCAAAATGCGTAATCAGATAACTGAAGCTTTCAG AAAGAATTCTTTATTTACTAATTTATTCAAGAAAAATCTTATTAAGGAGTATCTTCCTGCTTTTGTAAGT GAGGAAGAGAAGAGTGTGGTGAACAAATTTAGCAAATTTACCACTTACTTTGATGCGTTTAATGACAATC GTAAAAATTTATATTCAGGCGATGCCAAATCCGGTACGATAGCTTATCGACTTATTCATGAGAATTTGCC GATGTTTCTTGATAATATAGCATCCTTTAATGCAATTTCTGGGATAGGAGTAAATGAGTACTTTTCTAGT ATAGAGACAGAATTTACTGATACTCTTGAAGGAAAGCGTCTGACTGAGTTTTTTCAGATTGACTTTTTTA ATAATACATTGACTCAGAAAAAGATAGGCAACTATAACTATATTGTAGGGGCAGTCAATAAAGCTGTAAA TCTTTATAAGCAACAGCACAAAACAGTTCGTGTTCCATTGCTCAAACCATTATATAAAATGATCTTGAGT GATAGAGTTACTCCGTCATGGTTACCTGAACGTTTTGAAAGTGATGAAGAGATGCTGACTGCCATCAAAG CTGCTTACGAATCTTTGAGAGAAGTTTTAGTAGGTGATAATGATGAAAGTCTTCGCAACTTATTGCTCAA TATAGAGCATTATGATCTTGAACATATTTACATTGCAAATGATTCCGGATTGACTTCCATTTCACAGAAA ATATTTGGATGTTATGATACTTATACTTTGGCAATCAAAGACCAACTACAAAGGGATTATCCTGCAACAA AGAAGCAAAGAGAAGCTCCTGATTTGTATGATGAACGTATAGATAAATTGTATAAAAAGGTGGGTAGTTT TTCTATTGCTTATCTTAATCGGTTAGTCGATGCGAAAGGGCATTTTACTATTAATGAATATTATAAGCAG TTGGGAGCTTATTGTCGTGAAGAAGGAAAAGAAAAAGATGATTTCTTTAAGCGTATTGATGGTGCTTATT GTGCTATATCACATCTTTTCTTTGGGGAACATGGCGAAATAGCCCAGTCAGACTCAGATGTTGAGCTTAT CCAAAAGTTGCTCGAAGCCTATAAGGGGTTACAACGCTTTATCAAGCCTTTATTAGGTCATGGTGATGAA GCTGATAAAGACAATGAGTTTGATGCAAAACTTCGTAAAGTATGGGATGAACTCGACATCATTACACCGC TTTATGATAAAGTACGCAATTGGCTCTCTCGTAAGATATATAACCCTGAGAAAATAAAGCTATGTTTTGA GAATAATGGCAAGTTGTTATCTGGATGGGTTGACAGCAGAACTAAATCCGATAATGGTACTCAATATGGA GGGTATATCTTTAGAAAGAAGAATGAAATTGGTGAATACGATTTCTATTTGGGTATTTCTGCTGATACAA AACTGTTTCGTCGTGATGCTGCCATCAGTTATGATGATGGCATGTACGAGAGATTAGATTATTATCAGCT GAAATCAAAAACTTTACTCGGAAATAGTTATGTTGGAGATTATGGACTGGATTCGATGAATTTGCTTTCT GCATTTAAAAATGCTGCAGTTAAGTTCCAATTTGAAAAGGAAGTGGTTCCTAAAGATAAAGAGAATGTGC CAAAATATCTCAAGCGCCTAAAACTGGATTATGCAGGATTTTATCAAATTTTGATGAATGATGATAAGGT TGTTGATGCTTACAAGATTATGAAGCAGCATATTCTTGCGACATTGACTTCTTCGATTCGTGTACCTGCG GCAATAGAGTTAGCTACTCAAAAAGAATTGGGTATTGACGAATTGATTGATGAAATAATGAATTTACCGT CCAAGTCATTCGGCTATTTCCCTATTGTCACTGCAGCAATAGAAGAAGCTAACAAGAGAGAGAATAAACC TTTGTTTCTTTTTAAGATGAGTAACAAGGATCTTTCTTATGCAGCAACAGCTTCTAAAGGGTTAAGAAAA GGTCGAGGAACAGAGAATCTTCATTCAATGTATCTCAAAGCTCTTCTGGGGATGACACAGAGTGTTTTTG ATATCGGAAGTGGAATGGTATTCTTTCGTCACCAAACTAAAGGTTTGGCAGAAACAACGGCAAGACATAA AGCTAATGAGTTTGTTGCTAATAAGAACAAGCTTAATGACAAGAAAAAGAGTATTTTTGGCTATGAGATA GTGAAGAATAAACGTTTTACGGTAGATAAGTACCTTTTTAAGTTGTCTATGAATTTGAATTATTCGCAAC CAAATAACAATAAAATTGATGTAAATTCTAAAGTTCGTGAAATAATTAGTAATGGAGGTATAAAGAATAT TATTGGCATAGATCGTGGTGAACGTAATTTACTTTATCTGTCTTTAATAGATCTGAAGGGAAATATTGTC ATGCAGAAGTCTCTCAATATTCTCAAGGATGATCATAATGCAAAGGAAACTGATTATAAAGGTTTGCTGA CAGAACGAGAAGGAGAAAATAAAGAAGCTCGCCGCAATTGGAAGAAGATAGCGAATATCAAAGATTTAAA ACGAGGTTATTTAAGTCAGGTAGTACATATCATTAGTAAAATGATGGTAGAATACAATGCAATTGTTGTA CTTGAAGATTTAAATCCAGGTTTTATCAGAGGCAGACAAAAAATCGAGCGTAACGTATATGAACAATTCG AAAGAATGCTAATTGACAAGTTGAATTTTTATGTTGACAAGCATAAAGGTGCCAATGAAACGGGAGGTTT GTTGCATGCACTTCAGCTTACTTCTGAATTTAAAAATTTCAAGAAAAGTGAGCATCAGAATGGGTGTCTT TTCTATATTCCTGCATGGAATACTAGCAAAATAGATCCTGCAACAGGTTTTGTCAATCTCTTTAATACGA AATATACGAATGCAGTTGAGGCGCAGGAGTTCTTTAGTAAATTTGACGAGATTCGTTACAACGAGGAGAA AGATTGGTTTGAGTTTGAATTTGATTACGATAAATTCACTCAGAAGGCGCATGGTACACGTACTAAGTGG ACGCTCTGTACTTATGGTATGCGTTTGCGTTCATTTAAAAATTCTGCAAAACAATATAATTGGGATTCAG AGGTAGTAGCGCTTACCGAAGAATTCAAAAGAATACTTGGAGAAGCAGGTATTGATATTCATGAGAATCT AAAAGATGCAATCTGTAATTTGGAAGGTAAAAGCCAGAAGTATCTCGAACCTTTGATGCAGTTTATGAAA TTGCTGCTACAATTGCGTAATAGTAAGGCTGGTACTGACGAAGATTATATCCTTTCTCCAGTTGCTGATG AGAATGGAATATTCTACGATAGCCGTTCTTGTGGTGATCAACTTCCGGAGAATGCGGATGCTAATGGTGC TTACAACATCGCTCGCAAGGGACTGATGCTGATTGAGCAAATCAAGAATGCAGAGGATTTGAATAACGTC AAGTTTGATATATCCAATAAGGCTTGGCTCAATTTTGCACAACAAAAGCCATATAAGAATGGATGA SEQ ID NO: 28 ART7_Optimized_1 GTGAACATCCTTAAGGAGAACTATATGAAAGAAATCAAGGAGTTGACCGGTCTTTACTCATTAACTAAAACAATTG GCGTCGAATTAAAGCCCGTAGGAAAGACACAAGAGCTTATTGAGGCGAAGAAGCTTATCGAGCAAGATGACCAACG CGCGGAGGATTACAAAATCGTAAAGGACATTATCGACCGCTACCACAAAGATTTCATCGATAAATGCCTGAACTGT GTAAAAATTAAAAAAGATGACCTTGAGAAGTATGTTAGCCTTGCTGAGAACTCTAATCGCGACGCTGAAGATTTCG ACAAAATCAAAACAAAGATGCGTAATCAGATCACTGAGGCGTTCCGCAAGAACTCTTTATTCACCAACTTGTTTAA AAAGAATCTTATCAAGGAGTATTTGCCCGCGTTCGTCAGTGAAGAGGAAAAAAGTGTGGTGAATAAATTCAGCAAA TTTACTACTTACTTCGATGCGTTCAATGATAATCGCAAGAACCTGTACTCCGGTGACGCCAAATCCGGAACTATTG CATACCGTTTAATCCATGAGAATTTGCCAATGTTTCTTGATAATATCGCTAGCTTTAATGCCATTTCGGGCATCGG AGTGAACGAGTACTTCTCCAGCATTGAGACAGAGTTTACTGACACGCTGGAAGGGAAGCGCCTGACCGAGTTCTTT CAAATCGACTTTTTTAACAACACTCTGACCCAGAAAAAGATTGGCAACTATAACTACATTGTCGGTGCCGTCAACA AAGCCGTGAACTTGTATAAGCAGCAACACAAAACGGTTCGTGTCCCGTTGTTGAAGCCCCTGTATAAGATGATTTT GAGTGACCGCGTAACGCCTAGCTGGCTGCCCGAACGTTTCGAATCTGACGAAGAAATGTTGACCGCTATTAAAGCT GCTTACGAGAGCCTTCGTGAAGTACTGGTTGGAGACAATGATGAATCATTGCGTAATCTTCTGCTTAACATTGAAC ATTATGATTTGGAACACATTTATATCGCAAATGATAGTGGCCTGACCAGTATCAGTCAGAAGATTTTTGGATGCTA CGATACATATACTCTTGCCATCAAGGACCAGCTTCAGCGTGACTATCCAGCTACTAAAAAGCAACGCGAGGCACCT GATCTTTACGATGAACGCATCGATAAGTTATACAAAAAAGTAGGTTCTTTCTCAATCGCCTATCTGAATCGTTTAG TGGATGCGAAAGGACACTTTACTATTAATGAATACTACAAGCAATTAGGGGCATATTGTCGTGAGGAGGGCAAAGA AAAAGACGATTTTTTTAAACGCATTGACGGGGCCTACTGCGCCATTTCACATCTGTTCTTTGGTGAGCACGGGGAA ATTGCCCAATCTGACAGTGATGTGGAACTTATTCAGAAATTATTAGAAGCCTACAAGGGGCTTCAGCGTTTTATTA AACCATTACTTGGGCATGGGGATGAGGCTGACAAAGATAACGAATTTGACGCTAAGCTTCGCAAAGTATGGGACGA GCTTGACATCATTACCCCTTTATACGATAAGGTACGCAATTGGTTGTCCCGCAAGATCTATAACCCAGAGAAGATT AAATTATGTTTCGAAAATAATGGCAAACTGCTTTCAGGCTGGGTTGACAGTCGCACGAAGTCAGATAACGGTACGC AATATGGGGGATACATTTTTCGCAAAAAGAACGAGATCGGGGAATATGATTTTTATTTGGGTATTTCCGCCGATAC TAAGCTGTTTCGTCGCGATGCGGCAATCAGTTACGATGACGGGATGTATGAGCGTCTGGACTACTATCAGTTGAAA TCCAAGACTCTTTTAGGCAATTCGTACGTAGGCGATTATGGACTTGACTCGATGAACTTATTGTCTGCATTTAAAA ACGCGGCGGTTAAGTTTCAATTCGAGAAAGAGGTCGTCCCGAAAGATAAAGAGAACGTTCCAAAATATTTAAAACG TCTTAAGTTAGATTATGCGGGATTCTATCAGATTCTTATGAACGATGACAAGGTCGTGGATGCATATAAAATTATG AAACAGCACATCCTTGCTACTTTAACGTCATCGATTCGCGTGCCTGCTGCTATCGAACTTGCCACCCAAAAAGAGT TGGGAATTGATGAGCTTATCGATGAGATTATGAATCTGCCTTCAAAGAGTTTTGGCTACTTCCCAATCGTCACCGC AGCGATCGAAGAAGCTAATAAACGTGAAAACAAACCGTTATTCTTGTTTAAAATGTCCAACAAGGACCTTTCCTAC GCAGCAACGGCCTCCAAAGGACTTCGCAAGGGACGTGGAACCGAGAACTTACATAGCATGTATCTTAAAGCCTTGT TGGGAATGACCCAATCAGTGTTTGATATTGGTAGCGGTATGGTGTTCTTTCGCCACCAAACCAAAGGGCTGGCTGA AACTACTGCCCGCCACAAAGCGAATGAATTTGTAGCTAATAAAAATAAGTTAAATGATAAAAAAAAGTCCATCTTT GGATATGAAATTGTGAAGAATAAACGCTTCACGGTAGATAAATATCTTTTTAAGTTGTCTATGAACCTTAACTACA GCCAACCAAACAACAATAAGATCGATGTGAATTCTAAAGTTCGTGAAATCATTTCGAACGGAGGCATTAAAAACAT CATTGGTATCGACCGCGGAGAACGTAATCTTCTGTACCTTAGCTTGATTGACTTAAAAGGCAATATTGTGATGCAA AAGTCACTTAATATCTTGAAAGACGACCACAACGCAAAGGAGACCGATTACAAAGGACTGCTTACTGAACGTGAAG GTGAGAACAAAGAGGCACGCCGCAATTGGAAAAAAATTGCTAACATCAAGGATTTAAAACGTGGGTACCTGTCTCA GGTAGTTCACATTATTAGCAAAATGATGGTCGAATACAATGCGATTGTTGTGTTAGAGGATTTAAACCCTGGCTTC ATTCGTGGTCGTCAAAAAATCGAACGCAATGTCTACGAACAATTTGAACGTATGTTGATCGATAAGCTGAATTTTT ACGTGGATAAGCACAAAGGGGCCAACGAAACCGGGGGACTTTTACATGCGTTACAGTTGACTTCTGAATTCAAAAA TTTTAAGAAAAGTGAGCACCAGAACGGGTGCTTGTTCTATATTCCCGCCTGGAATACAAGCAAAATCGATCCTGCT ACGGGGTTTGTAAATTTGTTCAATACCAAATATACAAATGCTGTTGAGGCGCAAGAATTCTTTTCCAAATTCGATG AGATCCGTTACAATGAAGAGAAAGACTGGTTCGAGTTCGAATTTGATTATGATAAGTTCACGCAAAAGGCCCACGG GACTCGCACAAAGTGGACTTTGTGTACGTACGGAATGCGCCTTCGTTCCTTCAAGAACAGTGCAAAGCAATACAAC TGGGATAGCGAGGTAGTAGCATTAACCGAGGAATTTAAACGTATTTTAGGCGAGGCAGGTATCGATATCCATGAGA ATTTAAAGGACGCGATCTGTAACTTGGAGGGTAAGTCTCAGAAGTATCTGGAACCGTTAATGCAATTCATGAAATT ATTACTGCAGCTGCGCAATTCCAAAGCCGGAACTGACGAGGATTACATTTTAAGCCCGGTAGCCGATGAGAACGGA ATCTTCTACGATAGTCGTTCTTGTGGAGATCAACTTCCTGAAAATGCAGATGCGAACGGAGCATATAATATCGCCC GCAAAGGCTTAATGCTGATTGAGCAAATTAAGAACGCGGAGGACCTTAATAACGTAAAATTTGATATCTCGAACAA GGCGTGGTTGAACTTCGCTCAGCAAAAACCTTACAAAAATGGCTGA SEQ ID NO: 29 ART7_Optimized_2 GTGAACATCTTAAAAGAAAACTACATGAAGGAGATCAAAGAGCTGACCGGTTTATATTCGTTAACTAAGACGATCG GAGTTGAACTTAAACCTGTGGGAAAAACTCAGGAGCTTATTGAGGCAAAAAAGTTGATTGAGCAAGATGATCAGCG TGCTGAAGACTACAAGATTGTTAAGGATATCATTGACCGCTATCATAAGGATTTCATCGACAAATGCCTTAATTGT GTCAAAATCAAGAAGGACGATTTGGAGAAATACGTATCACTTGCGGAAAACAGTAATCGTGACGCAGAAGATTTCG ATAAGATTAAGACGAAGATGCGCAATCAGATCACGGAGGCATTTCGCAAAAATTCCTTGTTTACCAATTTGTTTAA AAAGAACCTGATTAAAGAATACCTTCCTGCCTTCGTATCAGAGGAAGAGAAGTCTGTTGTAAACAAGTTCAGTAAA TTCACCACGTACTTTGACGCTTTTAACGATAATCGCAAAAACCTTTACTCCGGTGACGCCAAATCGGGCACTATCG CCTATCGCTTAATCCACGAAAATCTGCCGATGTTTCTGGATAATATCGCCTCGTTCAATGCCATTAGTGGAATTGG TGTCAATGAATACTTCAGCAGTATTGAAACTGAGTTTACTGATACCCTTGAAGGCAAGCGCCTTACCGAATTCTTC CAGATTGATTTTTTTAATAATACGCTGACCCAGAAAAAAATCGGGAATTACAACTATATCGTTGGAGCCGTCAATA AGGCAGTAAATTTGTATAAGCAGCAACACAAGACTGTGCGTGTACCGCTTTTAAAACCATTATACAAAATGATTCT TAGCGACCGCGTCACGCCCTCATGGCTGCCCGAGCGCTTTGAGAGTGATGAGGAAATGCTGACAGCGATTAAGGCA GCCTATGAGTCGCTGCGCGAGGTTCTTGTTGGCGACAACGATGAGAGCTTACGTAACTTATTACTTAATATTGAGC ATTATGATTTAGAACACATCTATATTGCTAATGACTCAGGCCTTACAAGCATCTCGCAGAAAATTTTCGGATGCTA CGATACCTATACCTTGGCTATCAAAGACCAATTGCAGCGTGATTATCCTGCGACTAAAAAGCAACGTGAAGCCCCT GATTTATACGACGAGCGTATCGATAAGTTGTACAAAAAGGTGGGGAGTTTTTCAATTGCCTACCTTAATCGCCTTG TTGATGCAAAAGGACACTTCACCATCAACGAATATTACAAGCAGCTTGGGGCCTACTGTCGCGAAGAAGGTAAAGA GAAAGATGACTTTTTTAAGCGTATCGACGGAGCGTACTGTGCGATCAGCCATCTTTTTTTTGGTGAGCATGGTGAA ATTGCTCAGAGTGATTCCGATGTTGAGCTGATCCAGAAACTTCTTGAGGCGTATAAAGGGCTTCAGCGTTTTATTA AACCTCTTTTGGGTCACGGCGACGAAGCGGACAAAGATAACGAGTTCGACGCGAAGCTTCGCAAGGTGTGGGACGA ATTAGACATCATTACCCCTCTGTATGATAAGGTTCGTAACTGGCTTAGTCGCAAGATTTATAATCCCGAGAAAATT AAATTGTGCTTTGAAAACAACGGCAAATTATTATCCGGCTGGGTTGATTCCCGCACCAAATCCGACAATGGGACGC AATATGGTGGCTATATTTTCCGCAAGAAGAATGAGATCGGGGAATACGATTTTTATTTAGGAATCTCCGCAGATAC AAAGTTGTTCCGTCGTGATGCCGCTATCAGCTACGATGACGGGATGTATGAACGCCTTGATTATTATCAATTAAAA TCGAAGACGCTTTTGGGTAATTCTTATGTCGGCGACTATGGGTTGGATTCCATGAACCTTTTATCAGCGTTCAAAA ATGCTGCTGTGAAGTTTCAATTCGAAAAGGAGGTGGTGCCCAAGGATAAAGAGAACGTTCCCAAATATCTGAAGCG CCTTAAGTTAGACTACGCCGGTTTTTATCAAATTTTGATGAACGATGATAAGGTTGTGGATGCTTATAAAATCATG AAGCAACACATCCTGGCAACTCTGACTAGTTCTATTCGCGTACCGGCAGCAATCGAACTTGCAACCCAGAAGGAGT TAGGAATTGACGAATTGATCGACGAGATCATGAATCTTCCCTCCAAGAGTTTCGGATACTTTCCAATCGTAACAGC CGCCATCGAGGAGGCAAATAAGCGTGAGAATAAACCTCTGTTCCTGTTCAAGATGTCGAATAAGGACTTATCATAC GCCGCCACGGCAAGTAAAGGTCTTCGCAAAGGGCGTGGCACGGAAAACCTGCATAGCATGTATTTGAAGGCATTGC TGGGGATGACCCAAAGTGTTTTTGACATTGGCTCAGGTATGGTATTTTTCCGCCACCAGACAAAAGGACTGGCCGA GACAACGGCGCGTCACAAGGCAAACGAATTTGTCGCTAATAAGAATAAACTGAATGATAAGAAGAAGTCGATTTTC GGATATGAGATCGTCAAAAACAAGCGCTTCACAGTGGATAAGTATTTGTTTAAGTTATCAATGAACCTTAACTACT CGCAACCGAATAATAACAAAATTGACGTAAACAGCAAAGTCCGCGAAATTATTAGCAATGGCGGCATTAAGAACAT CATCGGAATCGACCGCGGTGAACGCAACTTATTATATTTATCATTGATTGATCTGAAAGGAAATATTGTTATGCAA AAATCTTTGAATATTTTGAAAGATGATCATAATGCCAAGGAGACCGATTATAAAGGGCTTCTGACCGAGCGCGAGG GGGAGAATAAGGAGGCACGCCGCAACTGGAAGAAAATTGCCAATATCAAGGATCTTAAACGTGGTTACCTTTCACA GGTAGTCCATATTATCAGCAAGATGATGGTCGAGTACAACGCTATTGTAGTTTTAGAGGACCTTAACCCGGGGTTC ATTCGTGGGCGCCAGAAAATCGAACGTAATGTATATGAACAGTTCGAGCGTATGCTGATTGACAAGCTTAACTTCT ACGTGGATAAGCATAAGGGTGCCAATGAGACCGGAGGTCTTCTGCATGCCTTGCAGTTAACATCGGAATTCAAGAA CTTTAAAAAGAGTGAACACCAAAACGGATGCTTATTTTATATCCCTGCATGGAATACGAGCAAAATCGACCCCGCC ACGGGATTCGTAAATCTGTTTAACACCAAGTATACGAACGCAGTTGAGGCTCAGGAGTTCTTTTCGAAGTTCGATG AGATTCGTTACAATGAAGAAAAAGATTGGTTTGAATTTGAGTTTGACTATGATAAGTTCACGCAGAAGGCGCATGG TACTCGTACCAAATGGACCCTTTGTACTTACGGGATGCGCTTGCGCTCGTTTAAGAACAGTGCCAAACAATACAAT TGGGACAGCGAGGTAGTCGCCTTAACGGAAGAATTTAAGCGTATTTTAGGAGAAGCCGGCATTGACATTCACGAAA ACCTGAAGGACGCGATTTGTAACTTAGAGGGCAAGTCGCAAAAATATTTGGAACCTCTTATGCAGTTTATGAAACT TCTTTTACAATTGCGCAATTCAAAGGCTGGAACTGACGAAGATTATATTTTATCTCCCGTCGCCGACGAAAATGGT ATCTTCTACGACTCCCGCTCCTGTGGCGATCAATTACCCGAGAACGCCGATGCTAATGGGGCTTACAACATTGCGC GTAAAGGCTTGATGCTGATTGAGCAGATCAAGAATGCTGAGGACTTGAACAACGTCAAGTTCGACATTTCAAACAA GGCTTGGCTGAACTTCGCACAGCAAAAACCATACAAGAATGGCTGA SEQ ID NO: 30 ART7_Optimized_3 GTGAACATCTTAAAGGAGAATTATATGAAAGAGATCAAGGAGCTTACAGGGCTTTACTCACTGACGAAAACAATTG GGGTTGAATTAAAACCGGTAGGAAAAACACAAGAGCTTATCGAAGCGAAAAAATTGATCGAACAGGACGACCAGCG CGCGGAAGATTACAAGATCGTAAAAGACATCATCGACCGTTACCACAAAGATTTCATTGATAAGTGCTTAAACTGT GTAAAGATCAAAAAGGATGATCTTGAAAAATATGTGTCACTTGCAGAGAATTCCAATCGCGACGCAGAGGATTTCG ATAAAATTAAAACCAAAATGCGCAACCAGATTACAGAAGCGTTTCGTAAAAATTCTTTGTTTACAAATTTGTTTAA AAAAAATCTTATTAAAGAGTACCTGCCTGCCTTCGTCTCCGAGGAAGAGAAATCTGTTGTAAATAAGTTCAGTAAG TTTACAACGTACTTTGATGCTTTCAACGACAACCGCAAAAATTTATATAGCGGGGACGCAAAATCTGGGACGATTG CATATCGCTTGATTCACGAGAACTTACCGATGITTCTGGATAACATTGCATCCTTTAATGCCATTTCCGGGATCGG AGTAAATGAGTATTTTAGCAGCATTGAGACAGAGTTTACTGATACGCTGGAGGGGAAACGTCTTACTGAGTTCTTC CAAATCGACTTCTTTAACAACACCCTTACTCAGAAAAAAATCGGGAACTACAACTATATTGTCGGCGCTGTGAACA AGGCGGTCAATTTGTATAAGCAGCAGCATAAAACGGTCCGTGTCCCTCTGTTGAAGCCGCTTTATAAAATGATTCT GTCAGACCGCGTTACTCCCTCATGGCTTCCTGAGCGCTTTGAGTCGGACGAAGAAATGCTTACGGCAATCAAAGCA GCCTATGAATCATTACGTGAGGTTTTGGTCGGTGATAACGACGAAAGCCTTCGTAACTTGCTTTTAAATATCGAGC ATTACGATTTGGAGCACATCTATATCGCGAACGATTCGGGATTAACTTCTATCTCCCAAAAGATTTTTGGCTGTTA TGACACGTATACTCTGGCCATTAAGGATCAGCTTCAACGTGACTATCCGGCCACTAAAAAGCAACGCGAGGCTCCG GACCTGTACGATGAACGCATCGACAAACTTTACAAGAAAGTGGGCTCGTTCTCAATTGCTTACCTTAACCGTCTTG TCGACGCGAAAGGACACTTTACGATTAACGAATATTATAAGCAACTTGGGGCGTATTGTCGCGAAGAGGGCAAAGA AAAGGACGATTTTTTCAAGCGCATTGATGGAGCTTACTGTGCGATTTCGCACCTTTTCTTTGGCGAACATGGGGAA ATCGCGCAATCAGACTCGGACGTCGAACTGATTCAGAAATTATTAGAGGCGTACAAAGGGCTGCAGCGTTTTATTA AACCATTATTAGGGCATGGAGATGAAGCGGACAAGGACAATGAATTTGATGCCAAACTTCGTAAAGTCTGGGATGA ACTTGACATCATTACGCCGTTATATGATAAGGTCCGCAATTGGCTTTCCCGCAAAATCTATAACCCCGAAAAGATC AAGCTTTGCTTTGAGAATAACGGTAAGTTATTGTCAGGGTGGGTAGATTCTCGTACTAAATCGGACAACGGCACAC AGTATGGAGGCTACATTTTCCGTAAAAAGAACGAAATCGGCGAGTATGACTTCTATCTGGGAATTTCAGCAGACAC GAAATTATTCCGTCGTGACGCGGCCATCTCATACGATGATGGTATGTACGAGCGCTTGGATTACTATCAACTGAAA AGCAAAACCTTACTGGGCAATAGCTATGTAGGTGATTACGGATTGGACAGTATGAACTTGTTGAGTGCTTTTAAAA ATGCGGCGGTAAAGTTCCAATTTGAAAAGGAAGTGGTACCAAAAGACAAAGAGAACGTTCCGAAGTACCTTAAACG CCTTAAATTGGACTACGCGGGATTTTACCAAATCTTAATGAACGACGATAAGGTCGTGGACGCTTACAAGATTATG AAGCAACATATCCTTGCCACCTTGACGTCTTCGATCCGCGTTCCTGCAGCAATTGAATTGGCAACCCAGAAAGAGC TTGGCATCGATGAACTTATCGATGAAATCATGAATTTACCAAGTAAGAGTTTTGGATACTTTCCTATTGTAACCGC GGCTATTGAAGAGGCCAACAAGCGTGAGAACAAACCGCTTTTCTTGTTTAAAATGAGTAACAAAGATCTTAGCTAT GCGGCAACAGCATCTAAGGGGTTACGCAAGGGTCGCGGCACGGAAAATTTACACTCAATGTATTTAAAGGCGCTGC TTGGGATGACCCAAAGTGTCTTTGACATTGGGTCTGGTATGGTTTTTTTCCGTCACCAGACCAAAGGCTTAGCGGA GACTACGGCACGTCACAAGGCTAACGAGTTCGTAGCGAACAAAAATAAGTTAAATGACAAAAAGAAAAGCATTTTC GGATACGAGATCGTCAAGAATAAGCGCTTCACCGTCGATAAGTACCTGTTCAAATTGAGTATGAACTTAAATTATA GCCAGCCCAACAATAACAAAATCGATGTGAACAGCAAAGTTCGTGAGATTATTAGTAATGGCGGCATTAAGAACAT TATTGGTATTGACCGCGGTGAACGTAATTTGCTGTACCTGTCTCTTATCGATTTGAAGGGGAACATTGTCATGCAA AAATCCCTGAACATCCTGAAAGATGACCATAATGCGAAAGAAACTGACTACAAGGGTCTTTTAACAGAGCGTGAAG GCGAGAATAAAGAGGCGCGTCGTAACTGGAAGAAAATCGCAAATATTAAGGATTTGAAACGTGGGTATCTGAGCCA AGTTGTTCACATTATTAGCAAAATGATGGTTGAATATAACGCGATTGTTGTACTGGAAGACCTGAACCCAGGGTTC ATCCGCGGACGTCAGAAAATCGAGCGCAATGTCTACGAACAATTTGAGCGTATGTTAATCGACAAATTGAACTTTT ACGTGGATAAACATAAAGGAGCGAACGAGACAGGGGGCTTGCTGCATGCGCTGCAGTTAACGTCTGAGTTCAAGAA CTTTAAAAAGAGCGAACACCAAAACGGCTGTCTTTTCTACATCCCCGCTTGGAATACGTCCAAGATTGATCCAGCA ACCGGTTTCGTAAACTTGTTTAACACCAAGTATACCAACGCCGTTGAAGCTCAGGAATTCTTCAGTAAGTTCGACG AAATCCGCTATAATGAAGAAAAAGACTGGTTTGAGTTTGAGTTTGATTATGATAAGTTCACTCAGAAAGCTCATGG AACTCGTACCAAGTGGACTCTGTGCACGTACGGGATGCGCTTACGCAGCTTCAAGAACTCAGCAAAGCAATATAAC TGGGACTCCGAGGTAGTTGCCTTGACCGAGGAATTTAAGCGCATCCTTGGCGAGGCAGGAATCGATATCCACGAGA ACCTTAAGGATGCGATCTGCAACTTGGAGGGGAAATCGCAAAAATACTTGGAACCTTTGATGCAGTTTATGAAGTT ACTTCTGCAATTGCGTAACTCGAAAGCCGGAACTGACGAAGACTATATTCTGAGTCCAGTCGCTGATGAAAATGGT ATTTTTTATGACTCCCGTTCCTGCGGAGACCAATTACCCGAGAATGCTGACGCGAATGGGGCGTACAATATTGCTC GCAAGGGCCTTATGCTTATTGAGCAGATCAAAAACGCAGAGGACCTTAACAACGTAAAATTCGATATCAGCAATAA GGCGTGGCTGAACTTTGCCCAACAAAAGCCCTACAAGAACGGCTGA SEQ ID NO: 31 ART8_WT ATGGCAAAAGAGAATATTTTTAATGAGCTCACAGGAAAATACCAGCTTTCAAAAACGTTGAGATTGGAGT TGAAGCCAGTGGGGAACACTCAGCAGATGCTTAAAGATGAAGATGTCTTTGAAAAAGATAGAATTATCAG GGAGAAGTATAGAGAGACAAGGCCGCATTTTGATCGTTTACATAGAGAGTTTATTGAACAGGCGCTTAAA AATCAGAAACTTTCTGATTTAGGAAAGTATTTTCAATGTCTCGCAAAACTCCAAAACAATAAAAAGGATA AAGAAGCGCAGGAGGAATTTAAAAGGATTTCTCAAAATTTAAGAAAAGAAGTCAATGATCTATTTAAAAT AGATCCGCTGTTTGGGGAAGGAGTCTTTGCTTTGCTAAAAGAAAAATATGGCGAAAAAGACGATGCTTTC TTAAGGGAGCAAGATGGTCAGTATGTTCTTGATGAAAATAAAAAGAAGATATCAATCTTTGATTCATGGA AGGGATTTACGGGGTATTTCACAAAATTTCAAGAGACAAGAAAAAATTTCTACAAAGATGATGGTACTGC GACGGCAGTTGCCACAAGGATCATAGACCAAAATCTGAAAAGATTTTGCGAGAATATTCAAATATTTAAA TCCATACAAAAAAAAGTTGATTTTAAAGAAGTTGAAGATAATTTTTCGGTAGATTTAGAAGATATCTTTT CTCTTGGTTTTTATAGTTCTTGTTTTCTCCAGGAAGGAATTGATGTGTATAACAAAATTCTAGGAGGTGA ACCAAAAACAACAGGTGAAAAATTAAGGGGATTGAATGAATTGATAAACAGATATCGCCAGGACCATAAG GGCGAAAAATTGCCGTTTTTCAAGATGCTTGATAAACAGATTTTAAGCGAGAAAGAAAAATTCATTGAAA GTATAGAAGACGACGAAGAACTTTTAAAAACTCTAAAGGAATTTTATTCTTCTGCGGAAGAAAAGACTAC AGTATTAAAAGAGCTTTTCAATGACTTTATTAAAAACAATGAGAACTATGATCTTTCCGAAATCTATATT TCCAGAGAAGCACTCAATACTATTTCGCACCGTTGGGTAAGTGCCGCTACGCTACCTGAATTTGAAAAAA GTGTTTACGAAGTGATGAAAAAGGACAAACCATCAGGGCTTAGTTTTGACAAGGACGATAACTCTTATAA ATTTCCTGATTTTATCGCGCTCTCTTATATAAAGGGATCGTTTGAAAAATTATCCGGAGAAAAGCTATGG AAAGATGGATATTTTAGAGACGAAACAAGAAATGGTGATAAAGGTTTTTTGATCGGCAATGAATCCCTTT GGACTCAATTCATAAAAATATTTGAGTTTGAATTTAATTCTTTATTTGAGGCAAAAAATACCGAAAGATC CGTTGGTTATTATCATTTCAAAAAAGATTTTGAAAAAATAATCACCAATGATTTTTCTGTAAATCCGGAA GATAAAGTAATTATCAGAGAATTTGCCGATAATGTGCTGGCCATTTATCAAATGGCAAAGTACTTTGCCA TTGAAAAGAAACGGAAATGGATGGATCAATACGATACGGGTGATTTCTACAATCATCCTGACTTTGGATA CAAGACAAAATTTTATGACAATGCCTACGAAAAGATAGTAAAGGCGAGAATGTTACTGCAAAGTTATCTC ACTAAAAAACCATTTAGCACGGATAAGTGGAAGTTAAATTTTGAATGCGGATATCTTCTTAATGGATGGT CTTCAAGTTTTAACACCTATGGTTCGCTTTTATTTAGAACGGGCAATGAATACTATTTGGGAGTTGTGAA TGGTAGTGCCTTGCGAACAGAGAAAATCAAGAGACTAACAGGCAATATAACGGAGGCAAATTCTTGTCAT AAAATGGTTTATGATTTTCAAAAACCGGACAATAAAAATGTACCAAGAATATTTATTAGATCAAAGGGTG ATAAATTTGCACCAGCGGTCTCCGAGTTGAATCTTCCTGTTGATTCAATATTAGAAATATACGATAAGGG TTTGTTTAAAACAGAAAATAAAAATAGTCCGTTTTTTAAGCCATCACTTAAAAAGCTTATTGATTACTTC AAATTGGGATTCAGTCGCCATGCATCCTATAAGCACTATCAGTTTAAATGGAAGGATAGTTCTGAATATA AAAATATATCTGAATTTTATAATGATACCATTCGGTCTTGCTATCAGATCAAGTGGGAGGAGTTAAATTT TGAAGAAGTTAAAAAACTTACCAACTCAAAAGACTTATTCTTATTCCAAATATATAATAAAGATTTTTCC GAAAAAAGTACTGGAAATAAGAATCTTCATTCCATTTATTTTGATGGTCTATTCTTGGATAATAATATCA ATGCGCAAGACGGAGTGATCCTTAAATTAAGTGGTGGCGGAGAGATTTTTTTCCGACCAAAGACAGATGT CAAGAAACTTGGTAGCAGGACTGATACTAAAGGAAAGCTTGTTATAAAAAATAAGAGATATAGTCAAGAT AAAATCTTTTTACATTTTCCTATTGAGCTAAACTATTCTAATACTCAAGAGAGTAATTTTAACAAATTAG TAAGAAATTTCCTCGCCGATAATCCTGATATAAATATTATCGGTGTTGATCGTGGAGAGAAACATTTGAT TTACTACGCGGGAATTGATCAAAAAGGAAATACCTTAAAAGATAAAGACGATAAAGATGTTTTGGGGAGC TTGAATGAGATCAATGGCGTAAATTACTATAAGTTATTGGAAGAAAGGGCAAAGGCGCGGGAAAAGGCCC GGCAGGACTGGCAGAATATTCAAGGCATTAAAGATTTAAAAATGGGCTATATTTCTCTTGTGGTGAGAAA ATTAGCTGATTTGATTATTGAGTATAATGCTATTCTCGTGCTTGAAGACTTGAATATGCGATTTAAGCAA ATTCACGGCGGGATTGAAAAGAGCGTGTATCAACAGCTTGAAAAAGCGCTCATTGAAAAATTAAATTTCT TAGTTAATAAAGGCGAGAAAGATCCAGAGAGGGCGGGGCATTTGCTCCGTGCGTATCAGCTGACCGCACC GTTTAGTACGTTTAAGGATATGGGCAAACAAACCGGCGTGCTGTTCTACACGCAAGCCAGCTACACATCA AAAACGTGCCCTCAATGCGGTTTTCGTCCGAATATTAAATTGCATTTTGATAATCTTGAGAACGCAAAGA AAATGCTTGAGAAGATAAATATTGTCTACAAAGATAATCACTTTGAAATTGGCTATAAAGTTAGTGATTT CACCAAGACAGAAAAGACAAGTAGAGGGAATATACTATATGGAGACAGGCAGGGCAAAGACACCTTTGTT ATTTCTTCTAAAGCGGCAATCCGTTATAAATGGTTTGCCAGAAATATAAAAAACAATGAACTGAATAGAG GAGAAAGCTTGAAAGAGCATACAGAAAAAGGAGTAACAATTCAATACGATATTACCGAATGTTTAAAAAT TCTCTATGAGAAAAATGGGATAGATCATTCCGGCGATATAACAAAACAATCAATACGGAGTGAATTGCCA GCAAAATTTTATAAAGATTTACTATTCTATTTGTATTTATTGACGAATACAAGAAGCAGTATCTCTGGCA CAGAAATAGATTACATAAATTGCCCTGATTGCGGTTTTCATAGCGAGAAAGGTTTCAATGGATGTATATT TAATGGAGATGCAAATGGTGCATACAATATTGCCAGAAAAGGTATGTTAATACTAAAAAAGATAAATCAG TACAAAGATCAACATCACACAATGGACAAGATGGGGTGGGGCGATTTATTTATCGGTATAGAGGAGTGGG ATAAATATACGCAGGTTGTGTCAAGATCATAA SEQ ID NO: 32 ART8_Optimized_1 ATGGCGAAGGAGAACATCTTTAACGAGCTTACCGGAAAATATCAACTGTCGAAAACTCTGCGCTTAGAATTAAAAC CTGTCGGAAATACTCAACAAATGTTAAAAGACGAAGACGTGTTCGAAAAAGATCGTATCATTCGCGAAAAATATCG TGAGACCCGTCCCCATTTCGATCGTCTGCATCGTGAGTTTATTGAACAAGCGCTGAAGAATCAAAAACTTTCCGAC CTTGGAAAGTATTTTCAGTGCTTGGCTAAGTTGCAAAACAATAAAAAGGACAAAGAGGCACAAGAAGAGTTTAAAC GCATTTCGCAGAATTTGCGCAAAGAAGTCAATGATTTATTCAAAATTGATCCGTTATTCGGCGAGGGTGTATTTGC ACTGCTGAAAGAAAAGTATGGAGAAAAAGACGATGCCTTTCTGCGCGAGCAGGACGGCCAATATGTTTTAGATGAG AATAAAAAAAAGATTTCCATTTTTGATAGTTGGAAGGGCTTTACAGGGTATTTCACGAAATTCCAGGAAACTCGTA AGAACTTCTACAAAGACGACGGGACGGCAACAGCGGTGGCTACACGTATTATCGACCAAAATCTTAAGCGCTTCTG TGAGAACATTCAAATCTTTAAGTCAATCCAGAAGAAGGTAGACTTTAAGGAGGTCGAGGACAACTTCTCAGTCGAT TTAGAAGACATCTTCTCTTTAGGGTTTTACTCTTCTTGTTTCCTTCAGGAGGGCATCGACGTATACAATAAGATTC TGGGTGGTGAGCCAAAGACTACTGGAGAAAAGCTTCGTGGGTTGAACGAGTTGATCAATCGCTATCGTCAGGATCA CAAGGGGGAGAAATTGCCTTTTTTTAAGATGCTGGACAAGCAGATTCTGTCCGAGAAAGAGAAGTTTATCGAAAGC ATTGAAGATGATGAGGAGCTGTTGAAGACCTTGAAGGAATTCTATAGTAGTGCCGAAGAAAAGACTACTGTTCTGA AAGAACTTTTCAATGACTTTATCAAAAACAACGAAAACTACGACCTTAGCGAAATCTACATTTCTCGCGAAGCTCT GAATACGATCTCGCACCGCTGGGTGAGTGCAGCCACACTTCCAGAGTTTGAGAAATCCGTTTATGAGGTCATGAAG AAGGACAAGCCAAGTGGCCTTTCCTTCGACAAGGACGATAATTCTTATAAATTTCCTGACTTTATTGCGCTTTCGT ACATCAAAGGTTCTTTTGAGAAATTAAGCGGAGAGAAACTTTGGAAGGATGGCTACTTTCGCGACGAAACCCGCAA CGGTGATAAAGGATTTCTTATCGGTAATGAATCATTGTGGACTCAATTCATCAAGATTTTTGAGTTTGAGTTTAAC TCGTTATTCGAAGCCAAGAACACGGAACGTTCTGTGGGGTACTACCATTTTAAAAAAGATTTTGAAAAAATTATCA CTAACGACTTCTCCGTGAACCCCGAAGACAAAGTGATTATTCGCGAATTTGCCGACAATGTTCTTGCGATCTATCA GATGGCCAAATACTTTGCGATTGAGAAGAAACGCAAGTGGATGGATCAGTATGATACCGGCGACTTCTACAATCAT CCAGACTTTGGCTACAAAACCAAATTTTATGACAATGCATACGAAAAGATCGTCAAGGCACGCATGCTTTTGCAGT CATATTTAACGAAGAAACCTTTTTCAACTGATAAGTGGAAGCTGAACTTCGAATGTGGCTATCTTTTAAATGGTTG GTCAAGCAGCTTCAATACATACGGGTCGTTACTTTTCCGTACCGGTAATGAATATTATTTGGGCGTCGTAAACGGA TCCGCCTTACGTACTGAGAAAATTAAACGTTTAACCGGAAATATCACCGAGGCAAATTCATGCCATAAGATGGTCT ACGATTTCCAAAAACCCGATAATAAAAATGTCCCTCGCATCTTCATTCGTTCTAAGGGCGACAAGTTTGCCCCTGC CGTATCCGAATTGAATTTGCCAGTTGATTCAATCTTAGAGATCTATGACAAAGGCCTGTTCAAGACCGAAAACAAA AACTCCCCATTTTTTAAACCTTCGCTTAAAAAATTGATCGACTACTTCAAGTTGGGCTTCTCGCGTCACGCTTCCT ATAAGCATTACCAATTCAAGTGGAAAGATTCTAGCGAATACAAAAATATTAGCGAATTCTATAATGATACGATTCG TTCATGCTATCAGATCAAATGGGAAGAGCTGAATTTCGAAGAAGTAAAGAAATTGACCAACTCAAAGGACCTGTTC TTGTTCCAGATCTACAATAAAGATTTCTCAGAAAAGTCCACTGGAAACAAAAACCTGCACAGTATCTATTTCGATG GCTTGTTTCTTGATAATAACATTAACGCTCAAGACGGCGTGATTTTGAAACTGTCCGGTGGGGGAGAGATTTTTTT TCGCCCCAAAACGGACGTTAAAAAGTTAGGCTCCCGCACGGACACCAAAGGAAAGCTGGTTATTAAGAATAAGCGC TACTCGCAAGACAAGATCTTCTTGCATTTTCCTATCGAGTTAAACTACTCAAATACGCAAGAATCCAACTTTAATA AACTGGTGCGTAATTTTCTGGCCGATAATCCGGATATCAATATTATTGGTGTAGATCGTGGAGAGAAACATCTTAT CTATTATGCGGGGATCGACCAGAAAGGAAATACACTGAAGGACAAAGATGACAAAGATGTGTTGGGCAGCTTGAAT GAGATCAACGGGGTTAATTATTACAAATTACTTGAAGAACGCGCGAAAGCTCGCGAAAAAGCCCGCCAAGACTGGC AGAACATTCAAGGTATCAAAGACCTTAAGATGGGCTATATTTCGTTGGTGGTCCGCAAACTGGCGGATCTTATTAT CGAATACAACGCCATTCTGGTTTTGGAAGACCTGAACATGCGCTTCAAGCAGATTCACGGGGGAATCGAAAAGTCA GTATATCAACAGCTTGAGAAAGCCTTGATCGAGAAATTGAACTTCCTTGTCAACAAGGGAGAGAAGGACCCCGAAC GTGCGGGGCATCTTCTGCGCGCTTATCAACTTACAGCCCCTTTCTCCACCTTTAAGGACATGGGGAAGCAGACAGG CGTATTGTTCTACACCCAGGCAAGCTATACTAGCAAGACTTGTCCTCAGTGTGGGTTCCGTCCGAATATCAAGTTG CACTTTGACAATTTGGAGAATGCCAAGAAAATGCTTGAAAAAATCAACATTGTGTATAAGGATAACCACTTTGAAA TTGGATATAAGGTAAGCGACTTTACCAAGACCGAGAAGACTTCCCGCGGTAACATCTTGTATGGTGATCGCCAAGG GAAGGACACTTTTGTGATCAGTTCGAAAGCTGCTATTCGTTATAAGTGGTTTGCTCGCAACATCAAGAACAATGAG TTAAACCGTGGGGAATCGCTTAAAGAACATACCGAGAAGGGTGTCACCATTCAGTACGATATCACGGAATGTCTTA AAATCCTTTATGAAAAAAACGGGATCGACCATTCCGGTGATATCACCAAACAATCTATCCGCTCGGAACTTCCTGC CAAATTCTATAAGGATCTTCTTTTCTACTTGTACCTTCTTACGAACACTCGCTCTTCGATTTCCGGCACCGAAATC GACTACATTAATTGTCCGGACTGTGGATTCCACTCAGAGAAGGGTTTTAACGGCTGCATTTTTAATGGTGACGCCA ACGGAGCATATAATATTGCCCGCAAAGGAATGCTTATTCTTAAAAAAATCAACCAATATAAAGATCAGCACCATAC TATGGATAAAATGGGGTGGGGTGATCTTTTCATTGGGATTGAAGAATGGGACAAGTATACGCAGGTTGTCAGCCGC TCTTAA SEQ ID NO: 33 ART8_Optimized_2 ATGGCGAAAGAAAATATCTTTAACGAACTTACAGGAAAATACCAGTTAAGTAAGACACTTCGCCTGGAGTTGAAGC CTGTTGGAAATACTCAACAGATGTTGAAAGACGAAGACGTATTTGAAAAAGATCGTATTATCCGCGAGAAATACCG TGAAACCCGTCCCCATTTTGACCGTTTACACCGTGAGTTCATTGAGCAAGCTTTGAAGAACCAAAAGTTGTCTGAC CTTGGTAAATACTTTCAGTGCCTTGCAAAACTGCAGAATAATAAAAAGGATAAAGAGGCCCAAGAGGAATTCAAGC GCATTTCTCAAAATTTACGTAAGGAAGTCAACGATTTGTTTAAAATCGACCCGCTGTTCGGAGAAGGAGTGTTTGC TTTGTTGAAAGAGAAATATGGAGAAAAGGACGATGCCTTCCTTCGCGAACAGGATGGTCAGTATGTGTTAGACGAA AACAAGAAGAAAATTTCTATCTTTGATTCCTGGAAAGGCTTTACAGGATACTTCACGAAATTTCAGGAAACCCGCA AGAACTTCTACAAGGATGATGGAACTGCTACCGCTGTGGCAACCCGTATTATCGACCAAAATCTGAAGCGCTTCTG TGAAAACATTCAGATTTTCAAGTCTATTCAGAAGAAAGTTGATTTCAAGGAAGTTGAGGACAATTTTTCGGTAGAT TTAGAAGACATTTTCTCGTTAGGCTTCTACAGCTCGTGTTTCTTGCAGGAAGGTATCGACGTATATAACAAAATTC TTGGAGGAGAACCGAAAACAACGGGGGAGAAACTGCGCGGTCTGAACGAATTAATTAACCGCTACCGTCAGGACCA TAAGGGAGAGAAACTGCCCTTTTTTAAAATGCTTGACAAGCAAATTCTTTCTGAAAAAGAGAAATTTATTGAGTCA ATTGAGGACGACGAAGAGTTATTGAAGACTTTAAAGGAGTTCTATTCTAGCGCCGAAGAGAAAACTACAGTGTTGA AGGAACTTTTCAACGATTTTATTAAGAATAACGAGAACTACGACTTATCGGAGATTTACATTAGCCGTGAAGCGCT TAATACCATTAGCCATCGCTGGGTGAGCGCTGCCACACTTCCGGAATTTGAGAAGTCGGTGTACGAAGTCATGAAA AAGGACAAACCTTCCGGTCTTAGTTTTGATAAAGATGACAATTCCTATAAATTCCCCGATTTTATTGCTTTGAGCT ATATTAAGGGGTCGTTCGAAAAACTTTCTGGAGAAAAGCTGTGGAAGGATGGATACTTTCGCGATGAAACGCGTAA CGGTGACAAGGGGTTCCTTATCGGCAATGAATCCTTGTGGACTCAATTTATTAAGATTTTTGAGTTCGAGTTCAAT TCACTGTTCGAAGCCAAAAATACAGAGCGCTCTGTGGGGTATTACCATTTCAAGAAAGACTTCGAGAAAATTATCA CAAACGACTTCAGTGTCAACCCTGAAGATAAGGTGATTATTCGTGAATTCGCGGATAATGTACTGGCAATCTACCA GATGGCCAAGTATTTCGCTATTGAAAAAAAACGTAAATGGATGGACCAATACGATACAGGTGATTTTTATAACCAT CCAGACTTTGGCTACAAGACGAAATTTTATGACAACGCGTATGAGAAGATTGTAAAGGCACGTATGTTATTACAGA GTTACCTTACCAAGAAGCCGTTCTCCACGGATAAGTGGAAGTTAAACTTCGAGTGCGGCTATTTGCTTAACGGATG GAGTTCATCTTTCAATACGTATGGGTCGCTTTTATTTCGTACAGGTAATGAATACTACCTTGGCGTTGTTAACGGG TCTGCGCTGCGTACAGAGAAGATCAAGCGCCTTACAGGTAACATCACAGAAGCCAATTCTTGTCATAAAATGGTTT ATGACTTTCAAAAGCCGGACAACAAGAACGTGCCCCGTATTTTTATCCGTTCCAAGGGAGACAAGTTTGCACCGGC GGTGTCCGAGCTGAACTTGCCAGTTGATAGCATTCTTGAGATCTACGACAAGGGTCTTTTCAAAACAGAAAACAAA AACAGTCCCTTCTTCAAACCAAGTCTTAAAAAGTTGATCGACTATTTTAAACTTGGCTTTTCCCGCCATGCTTCAT ATAAACACTATCAATTTAAATGGAAAGATAGCTCTGAGTACAAGAATATTTCTGAGTTCTACAATGACACGATCCG TAGCTGCTACCAGATTAAGTGGGAAGAGTTAAATTTTGAAGAAGTCAAAAAGTTAACGAATAGTAAAGATTTGTTC TTATTTCAAATTTATAACAAAGATTTCAGCGAAAAGTCTACCGGAAATAAGAACCTGCACTCTATCTATTTTGACG GCCTGTTTCTGGATAATAACATTAATGCACAGGATGGAGTGATTTTGAAATTAAGCGGAGGGGGGGAAATCTTCTT CCGCCCGAAGACAGACGTGAAGAAGCTGGGCAGCCGCACTGATACAAAAGGTAAATTGGTTATTAAGAACAAACGT TATTCACAAGACAAAATCTTTCTGCACTTCCCCATCGAGTTGAACTACTCTAACACACAGGAGTCTAATTTCAATA AGCTTGTGCGTAATTTTCTGGCAGATAATCCAGACATTAATATTATCGGGGTGGACCGCGGAGAGAAGCATCTTAT TTACTATGCAGGAATCGACCAGAAAGGAAATACGTTGAAGGATAAGGACGATAAAGATGTATTGGGCTCTCTTAAT GAGATTAACGGCGTAAACTACTACAAACTGCTTGAGGAGCGCGCTAAAGCTCGCGAAAAAGCCCGCCAGGACTGGC AAAATATTCAAGGGATCAAAGACTTGAAGATGGGCTATATCAGTTTGGTAGTCCGCAAGCTGGCAGACTTAATTAT CGAGTATAACGCAATTCTGGTATTAGAAGACTTGAATATGCGCTTTAAACAAATTCACGGTGGAATTGAGAAGTCA GTCTACCAACAACTGGAGAAGGCCCTGATCGAAAAACTGAACTTTCTGGTAAATAAGGGGGAAAAAGACCCTGAGC GTGCTGGGCATCTTTTGCGCGCATATCAACTGACCGCTCCTTTTAGCACGTTTAAGGATATGGGGAAGCAGACCGG GGTACTGTTCTATACTCAGGCCAGTTATACATCTAAAACGTGCCCCCAATGTGGATTTCGCCCCAACATCAAGTTG CACTTTGATAACTTGGAAAATGCGAAGAAGATGTTGGAGAAAATTAATATTGTATATAAAGACAACCATTTTGAGA TTGGCTACAAGGTGAGTGATTTTACTAAGACAGAAAAAACATCCCGTGGTAACATCTTATATGGAGATCGCCAGGG AAAAGACACTTTCGTCATTTCTTCTAAAGCTGCTATTCGTTATAAATGGTTTGCACGCAATATTAAAAACAACGAG TTGAACCGCGGTGAATCCTTGAAGGAGCATACGGAGAAGGGCGTCACGATTCAGTATGATATTACTGAGTGCTTGA AAATCCTTTACGAAAAAAACGGCATTGACCACAGTGGTGACATCACCAAACAGAGCATCCGCAGTGAATTGCCGGC TAAGTTTTATAAAGATCTTCTGTTCTATTTATACCTTTTAACTAATACGCGTTCGTCCATCAGCGGTACCGAGATC GATTATATTAACTGTCCGGATTGTGGTTTCCATTCTGAGAAGGGATTTAACGGGTGCATTTTCAATGGTGACGCAA ATGGCGCTTATAATATTGCTCGCAAGGGGATGCTTATTTTAAAAAAGATTAATCAATACAAGGATCAGCATCATAC AATGGACAAGATGGGTTGGGGTGACCTTTTCATTGGTATCGAGGAATGGGACAAGTATACTCAAGTTGTGTCGCGC AGCTAA SEQ ID NO: 34 ART8_Optimized_3 ATGGCGAAAGAGAATATTTTTAACGAATTAACAGGCAAGTACCAACTTAGCAAAACCTTACGTCTGGAACTGAAAC CGGTAGGAAACACGCAACAAATGTTGAAAGACGAGGATGTCTTCGAGAAGGATCGCATTATTCGCGAGAAATATCG TGAGACCCGTCCACATTTCGACCGCTTACATCGTGAGTTTATCGAACAAGCGCTTAAGAACCAAAAGTTGTCTGAT TTGGGCAAATATTTCCAATGCCTGGCAAAATTGCAAAACAATAAGAAGGATAAAGAAGCGCAAGAAGAATTCAAAC GCATTTCACAAAATCTGCGCAAGGAAGTAAATGACCTGTTCAAGATTGACCCATTATTCGGTGAGGGTGTATTCGC ATTATTAAAGGAAAAATACGGTGAAAAGGACGACGCGTTCCTGCGCGAGCAAGACGGCCAATACGTATTGGACGAA AATAAGAAGAAGATTTCTATTTTTGATTCTTGGAAAGGGTTTACCGGTTACTTCACAAAATTCCAAGAAACACGTA AAAACTTCTATAAGGACGACGGGACCGCAACAGCAGTTGCGACACGTATCATTGATCAGAATCTGAAACGCTTTTG CGAGAATATCCAAATCTTCAAAAGCATTCAGAAGAAAGTAGATTTTAAAGAGGTCGAAGACAACTTCAGCGTCGAC TTGGAAGACATTTTTTCCTTGGGGTTCTACAGCTCGTGTTTCTTACAGGAAGGGATCGACGTATATAACAAGATTT TAGGGGGGGAACCAAAAACTACAGGGGAAAAATTACGTGGTTTAAATGAACTGATTAACCGTTACCGTCAGGATCA TAAGGGTGAGAAGCTGCCCTTCTTCAAGATGCTTGACAAGCAAATTTTATCTGAGAAGGAAAAATTCATTGAGTCT ATTGAAGACGATGAAGAACTTCTTAAGACGCTGAAAGAATTCTACAGTTCCGCAGAAGAAAAGACGACTGTCTTAA AAGAACTGTTTAATGATTTTATCAAAAATAATGAGAATTATGATCTTTCTGAAATTTATATTTCTCGTGAAGCCTT AAATACAATCAGCCACCGCTGGGTATCGGCTGCAACTCTGCCGGAGTTTGAGAAATCTGTATATGAAGTGATGAAG AAAGATAAACCCTCAGGTCTTTCTTTTGATAAGGATGATAATTCGTATAAGTTCCCGGATTTTATTGCCTTATCGT ACATCAAGGGAAGCTTTGAGAAGCTGTCTGGTGAGAAGTTGTGGAAGGACGGGTACTTTCGCGACGAAACGCGCAA TGGTGACAAGGGATTCCTTATTGGAAATGAGTCACTGTGGACACAATTTATCAAAATTTTTGAGTTTGAGTTCAAT TCGTTGTTTGAAGCAAAAAACACCGAACGTTCTGTAGGATACTATCACTTTAAGAAGGATTTTGAGAAGATTATCA CCAATGATTTTTCGGTGAACCCGGAAGACAAAGTAATTATTCGCGAATTTGCTGACAACGTCTTAGCCATCTACCA GATGGCTAAATATTTTGCTATCGAGAAGAAGCGTAAATGGATGGACCAATATGATACCGGGGACTTCTATAACCAT CCCGACTTTGGCTACAAAACTAAATTCTACGATAATGCGTATGAAAAAATCGTCAAGGCACGTATGCTGTTACAGT CCTATTTAACTAAAAAGCCATTTAGTACTGATAAATGGAAGCTGAACTTCGAATGTGGATACTTACTTAATGGATG GTCGTCTTCATTTAATACTTACGGCTCCCTTCTGTTCCGTACGGGAAATGAATACTATCTTGGTGTCGTCAATGGC TCCGCCCTTCGCACGGAGAAGATTAAACGCCTTACTGGCAATATTACGGAAGCTAACTCCTGCCATAAGATGGTCT ACGATTTCCAAAAGCCAGATAATAAAAACGTTCCGCGTATCTTTATCCGTTCAAAAGGGGATAAATTCGCACCTGC TGTATCAGAGCTGAACTTGCCCGTCGACTCAATCTTAGAGATCTACGACAAGGGACTGTTTAAGACGGAGAACAAG AACTCACCGTTCTTCAAACCGTCGTTGAAGAAGCTGATTGACTACTTTAAGCTGGGGTTCAGCCGTCACGCGTCAT ATAAACACTATCAGTTCAAGTGGAAAGATTCATCCGAATACAAAAATATTTCCGAGTTCTACAATGATACGATTCG CTCGTGTTATCAGATTAAGTGGGAAGAATTAAACTTTGAGGAAGTGAAGAAGCTGACGAACTCTAAAGACCTGTTT CTTTTCCAGATCTACAATAAAGATTTTTCAGAGAAAAGCACGGGAAATAAGAATCTTCATTCCATTTACTTCGACG GGCTGTTTCTTGATAACAACATTAACGCGCAGGACGGTGTTATTCTGAAATTGTCTGGAGGTGGAGAGATCTTTTT CCGTCCGAAGACCGACGTCAAAAAGCTGGGGTCGCGCACTGATACTAAAGGGAAACTGGTGATCAAAAACAAACGT TACTCGCAGGATAAAATTTTTTTGCACTTTCCCATTGAATTAAATTACTCAAACACGCAAGAGTCCAACTTTAACA AGTTGGTCCGCAACTTTTTGGCTGATAACCCGGATATCAATATCATTGGAGTGGACCGTGGCGAGAAGCATTTAAT TTACTATGCCGGGATCGACCAGAAAGGCAATACTCTGAAGGACAAAGATGACAAAGACGTCCTTGGTAGTTTGAAC GAGATCAATGGCGTTAATTATTACAAGTTGTTGGAAGAACGTGCCAAGGCCCGTGAAAAAGCCCGCCAAGATTGGC AAAATATCCAAGGTATCAAGGACTTGAAGATGGGATACATCTCTTTAGTTGTACGCAAGCTTGCCGATTTAATCAT TGAGTATAACGCTATCCTTGTTTTAGAAGATTTGAATATGCGCTTCAAGCAAATTCATGGTGGAATCGAAAAAAGC GTCTATCAGCAATTGGAAAAAGCCCTGATCGAAAAACTTAACTTTTTAGTTAACAAGGGGGAGAAGGATCCCGAAC GCGCCGGTCATTTGTTGCGTGCGTACCAGTTAACAGCCCCCTTCAGCACTTTTAAAGACATGGGCAAACAAACAGG CGTTCTTTTTTATACACAGGCATCTTATACATCGAAAACGTGCCCGCAGTGTGGCTTTCGCCCCAATATCAAGCTG CATTTTGATAATTTAGAAAATGCCAAAAAAATGCTTGAAAAAATTAACATCGTCTACAAGGATAATCACTTCGAAA TTGGCTATAAGGTTTCTGATTTCACGAAAACCGAAAAGACAAGTCGCGGAAACATTCTGTATGGTGATCGCCAAGG CAAAGACACTTTCGTAATTTCATCTAAAGCCGCCATCCGCTATAAGTGGTTCGCACGTAATATCAAGAACAACGAG TTGAACCGCGGAGAGAGCCTGAAGGAACACACTGAGAAGGGAGTAACCATTCAATATGATATTACAGAATGTCTGA AGATTTTATACGAAAAAAACGGTATCGATCACTCCGGCGATATTACCAAGCAAAGTATCCGCAGCGAGCTGCCCGC TAAATTCTATAAGGACTTACTTTTCTATTTGTACCTTCTTACGAACACTCGCTCGTCCATTTCCGGCACCGAGATT GATTATATCAATTGCCCAGATTGCGGTTTTCATTCCGAAAAGGGATTTAACGGTTGTATTTTTAATGGCGACGCAA ACGGAGCGTACAATATCGCTCGCAAGGGAATGCTGATCCTTAAAAAGATCAATCAGTATAAGGACCAACATCATAC TATGGATAAGATGGGCTGGGGCGATTTATTCATTGGTATTGAAGAATGGGACAAATACACACAAGTCGTCTCACGC TCATAA SEQ ID NO: 35 ART9_WT ATGAAAGAAATTAAAGAACTAACAGGCTTGTATTCTTTAACTAAGACTATTGGGGTAGAATTAAAGCCAG TGGGTAAGACGCAAGAGCTCATTGAAGCTAAAAAGCTTATTGAGCAGGATGATCAGCGTGCCGAAGATTA CAAAATAGTAAAGGATATTATTGATCGTTATCATAAGGATTTTATCGATAAGTGTCTTAACTGTGTTAAA ATCAAAAAAGATGATTTGGAGAAATATGTGTCATTGGCAGAAAACTCTAATAGAGATGCTGAGGATTTTG ACAAAATCAAGACCAAAATGCGTAATCAGATAACTGAAGCTTTCAGAAAGAATTCTTTATTTACTAATTT ATTCAAGAAAAATCTTATTAAGGAGTATCTTCCTGCTTTTGTAAGTGAGGAAGAGAAGAGTGTGGTGAAC AAATTTAGCAAATTTACCACTTACTTTGATGCGTTTAATGACAATCGTAAAAATTTATATTCAGGCGATG CCAAATCCGGTACGATAGCTTATCGACTTATTCATGAGAATTTGCCGATGTTTCTTGATAATATAGCATC CTTTAATGCAATTTCTGGGATAGGAGTAAATGAGTACTTTTCTAGTATAGAGACAGAATTTACTGATACT CTTGAAGGAAAGCGTCTGACTGAGTTTTTTCAGATTGACTTTTTTAATAATACATTGACTCAGAAAAAGA TAGGCAACTATAACTATATTGTAGGGGCAGTCAATAAAGCTGTAAATCTTTATAAGCAACAGCACAAAAC AGTTCGTGTTCCATTGCTCAAACCATTATATAAAATGATCTTGAGTGATAGAGTTACTCCGTCATGGTTA CCTGAACGTTTTGAAAGTGATGAAGAGATGCTGACTGCCATCAAAGCTGCTTACGAATCTTTGAGAGAAG TTTTAGTAGGTGATAATGATGAAAGTCTTCGCAACTTATTGCTCAATATAGAGCATTATGATCTTGAACA TATTTACATTGCAAATGATTCCGGATTGACTTCCATTTCACAGAAAATATTTGGATGTTATGATACTTAT ACTTTGGCAATCAAAGACCAACTACAAAGGGATTATCCTGCAACAAAGAAGCAAAGAGAAGCTCCTGATT TGTATGATGAACGTATAGATAAATTGTATAAAAAGGTGGGTAGTTTTTCTATTGCTTATCTTAATCGGTT AGTCGATGCGAAAGGGCATTTTACTATTAATGAATATTATAAGCAGTTGGGAGCTTATTGTCGTGAAGAA GGAAAAGAAAAAGATGATTTCTTTAAGCGTATTGATGGTGCTTATTGTGCTATATCACATCTTTTCTTTG GGGAACATGGCGAAATAGCCCAGTCAGACTCAGATGTTGAGCTTATCCAAAAGTTGCTCGAAGCCTATAA GGGGTTACAACGCTTTATCAAGCCTTTATTAGGTCATGGTGATGAAGCTGATAAAGACAATGAGTTTGAT GCAAAACTTCGTAAAGTATGGGATGAACTCGACATCATTACACCGCTTTATGATAAAGTACGCAATTGGC TCTCTCGTAAGATATATAACCCTGAGAAAATAAAGCTATGTTTTGAGAATAATGGCAAGTTGTTATCTGG ATGGGTTGACAGCAGAACTAAATCCGATAATGGTACTCAATATGGAGGGTATATCTTTAGAAAGAAGAAT GAAATTGGTGAATACGATTTCTATTTGGGTATTTCTGCTGATACAAAACTGTTTCGTCGTGATGCTGCCA TCAGTTATGATGATGGCATGTACGAGAGATTAGATTATTATCAGCTGAAATCAAAAACTTTACTCGGAAA TAGTTATGTTGGAGATTATGGACTGGATTCGATGAATTTGCTTTCTGCATTTAAAAATGCTGCAGTTAAG TTCCAATTTGAAAAGGAAGTGGTTCCTAAAGATAAAGAGAATGTGCCAAAATATCTCAAGCGCCTAAAAC TGGATTATGCAGGATTTTATCAAATTTTGATGAATGATGATAAGGTTGTTGATGCTTACAAGATTATGAA GCAGCATATTCTTGCGACATTGACTTCTTCGATTCGTGTACCTGCGGCAATAGAGTTAGCTACTCAAAAA GAATTGGGTATTGACGAATTGATTGATGAAATAATGAATTTACCGTCCAAGTCATTCGGCTATTTCCCTA TTGTCACTGCAGCAATAGAAGAAGCTAACAAGAGAGAGAATAAACCTTTGTTTCTTTTTAAGATGAGTAA CAAGGATCTTTCTTATGCAGCAACAGCTTCTAAAGGGTTAAGAAAAGGTCGAGGAACAGAGAATCTTCAT TCAATGTATCTCAAAGCTCTTCTGGGGATGACACAGAGTGTTTTTGATATCGGAAGTGGAATGGTATTCT TTCGTCACCAAACTAAAGGTTTGGCAGAAACAACGGCAAGACATAAAGCTAATGAGTTTGTTGCTAATAA GAACAAGCTTAATGACAAGAAAAAGAGTATTTTTGGCTATGAGATAGTGAAGAATAAACGTTTTACGGTA GATAAGTACCTTTTTAAGTTGTCTATGAATTTGAATTATTCGCAACCAAATAACAATAAAATTGATGTAA ATTCTAAAGTTCGTGAAATAATTAGTAATGGAGGTATAAAGAATATTATTGGCATAGATCGTGGTGAACG TAATTTACTTTATCTGTCTTTAATAGATCTGAAGGGAAATATTGTCATGCAGAAGTCTCTCAATATTCTC AAGGATGATCATAATGCAAAGGAAACTGATTATAAAGGTTTGCTGACAGAACGAGAAGGAGAAAATAAAG AAGCTCGCCGCAATTGGAAGAAGATAGCGAATATCAAAGATTTAAAACGAGGTTATTTAAGTCAGGTAGT ACATATCATTAGTAAAATGATGGTAGAATACAATGCAATTGTTGTACTTGAAGATTTAAATCCAGGTTTT ATCAGAGGCAGACAAAAAATCGAGCGTAACGTATATGAACAATTCGAAAGAATGCTAATTGACAAGTTGA ATTTTTATGTTGACAAGCATAAAGGTGCCAATGAAACGGGAGGTTTGTTGCATGCACTTCAGCTTACTTC TGAATTTAAAAATTTCAAGAAAAGTGAGCATCAGAATGGGTGTCTTTTCTATATTCCTGCATGGAATACT AGCAAAATAGATCCTGCAACAGGTTTTGTCAATCTCTTTAATACGAAATATACGAATGCAGTTGAGGCGC AGGAGTTCTTTAGTAAATTTGACGAGATTCGTTACAACGAGGAGAAAGATTGGTTTGAGTTTGAATTTGA TTACGATAAATTCACTCAGAAGGCGCATGGTACACGTACTAAGTGGACGCTCTGTACTTATGGTATGCGT TTGCGTTCATTTAAAAATTCTGCAAAACAATATAATTGGGATTCAGAGGTAGTAGCGCTTACCGAAGAAT TCAAAAGAATACTTGGAGAAGCAGGTATTGATATTCATGAGAATCTAAAAGATGCAATCTGTAATTTGGA AGGTAAAAGCCAGAAGTATCTCGAACCTTTGATGCAGTTTATGAAATTGCTGCTACAATTGCGTAATAGT AAGGCTGGTACTGACGAAGATTATATCCTTTCTCCAGTTGCTGATGAGAATGGAATATTCTACGATAGCC GTTCTTGTGGTGATCAACTTCCGGAGAATGCGGATGCTAATGGTGCTTACAACATCGCTCGCAAGGGACT GATGCTGATTGAGCAAATCAAGAATGCAGAGGATTTGAATAACGTCAAGTTTGATATATCCAATAAGGCT TGGCTCAATTTTGCACAACAAAAGCCATATAAGAATGGATGA SEQ ID NO: 36 ART9_Optimized_1 ATGAAAGAGATTAAAGAATTGACTGGGTTGTATAGTCTTACGAAAACCATCGGAGTTGAGTTGAAACCCGTGGGAA AGACTCAAGAGTTAATCGAGGCTAAGAAATTGATTGAGCAAGATGATCAGCGTGCCGAGGACTATAAAATTGTGAA GGATATTATTGACCGCTATCACAAGGATTTTATTGATAAGTGTTTGAATTGTGTGAAAATCAAAAAGGATGACTTG GAGAAGTATGTATCTTTAGCGGAGAACAGTAACCGTGATGCGGAAGACTTTGATAAGATCAAGACAAAGATGCGCA ACCAGATCACCGAGGCATTCCGCAAAAATTCTTTATTCACAAATCTTTTCAAAAAAAACCTGATCAAAGAATATCT TCCTGCATTCGTCTCTGAAGAGGAGAAATCAGTGGTTAATAAGTTTTCGAAGTTTACGACCTATTTCGACGCTTTT AATGATAATCGCAAAAACTTGTACTCCGGTGATGCTAAATCTGGAACGATTGCCTACCGTTTAATCCATGAAAATC TTCCAATGTTTTTAGACAATATCGCCTCGTTCAATGCCATTTCGGGTATCGGAGTTAACGAATACTTCTCTTCTAT TGAAACCGAATTTACAGACACATTAGAAGGAAAGCGTTTGACTGAATTTTTTCAAATCGATTTCTTTAACAACACT CTTACACAAAAAAAAATCGGCAACTATAATTACATCGTTGGTGCTGTGAACAAGGCAGTCAATCTGTACAAGCAGC AGCATAAGACGGTCCGTGTACCATTACTTAAGCCCCTGTATAAGATGATCTTATCCGACCGCGTAACGCCGTCATG GTTGCCAGAGCGTTTCGAATCGGACGAAGAGATGCTTACGGCTATCAAAGCGGCCTATGAATCCTTACGTGAGGTG TTGGTAGGCGATAACGACGAGTCCCTGCGCAACCTTTTACTGAATATCGAACATTATGATTTGGAACATATCTATA TCGCTAACGATTCTGGCCTTACATCTATTAGCCAGAAGATCTTCGGGTGTTATGACACTTATACTTTAGCGATTAA AGATCAATTGCAACGTGACTATCCCGCAACAAAGAAGCAGCGTGAAGCGCCAGACTTGTATGACGAACGCATTGAC AAGTTGTATAAAAAAGTCGGGTCTTTTTCTATTGCGTATTTGAACCGCTTGGTAGACGCGAAAGGGCACTTTACCA TTAACGAGTATTACAAGCAATTAGGCGCATATTGCCGTGAAGAAGGGAAGGAAAAAGATGACTTCTTTAAACGCAT TGACGGCGCCTATTGCGCGATCAGCCACCTGTTTTTCGGAGAGCATGGGGAAATCGCGCAAAGCGATTCTGATGTC GAATTAATTCAGAAGCTGCTGGAGGCATATAAGGGGCTTCAACGCTTTATCAAGCCGTTGCTGGGACATGGGGATG AAGCCGATAAAGACAACGAATTTGACGCAAAGTTGCGTAAAGTGTGGGACGAGTTAGACATCATTACGCCCTTGTA CGACAAGGTCCGCAATTGGCTGAGCCGCAAGATCTATAATCCTGAAAAGATTAAGTIGTGTTTCGAAAATAATGGC AAGCTTCTGTCGGGCTGGGTTGACTCACGCACAAAATCGGACAACGGAACACAGTATGGCGGTTATATTTTCCGTA AAAAAAACGAAATCGGGGAGTATGATTTTTATCTTGGGATCTCCGCCGACACCAAATTATTCCGTCGCGATGCGGC TATCAGTTATGACGATGGAATGTATGAACGCCTGGACTACTATCAGTTAAAATCCAAAACTCTTTTAGGTAATAGT TATGTCGGCGATTATGGTCTGGATAGCATGAACCTTTTAAGTGCATTTAAGAATGCAGCCGTTAAGTTTCAGTTTG AGAAAGAAGTTGTACCAAAAGACAAAGAAAATGTTCCCAAGTATCTGAAACGCTTAAAGTTGGACTATGCCGGTTT TTACCAAATTTTAATGAATGACGATAAAGTGGTAGACGCGTATAAGATTATGAAACAACACATCCTTGCCACCCTT ACCTCTTCAATCCGCGTGCCCGCGGCAATTGAATTAGCTACGCAGAAAGAGTTGGGGATTGACGAACTGATTGATG AGATCATGAACTTGCCATCAAAATCATTCGGGTACTTTCCGATTGTGACTGCAGCGATTGAGGAAGCTAACAAACG TGAAAATAAACCGCTTTTCCTGTTTAAGATGAGCAATAAAGATCTGAGCTACGCTGCCACAGCCTCGAAGGGGCTG CGTAAGGGGCGTGGTACAGAAAATTTGCATTCTATGTATCTTAAAGCCCTGTTGGGGATGACACAGTCTGTGTTCG ACATTGGGAGTGGAATGGTATTTTTTCGCCACCAGACTAAAGGTCTTGCTGAGACCACGGCGCGCCATAAAGCAAA CGAGTTCGTAGCGAACAAAAATAAGCTTAATGATAAAAAGAAATCCATCTTTGGATATGAAATTGTTAAAAACAAA CGTTTCACAGTCGATAAGTACCTTTTTAAACTTTCGATGAATTTGAACTACTCACAACCAAATAATAATAAAATTG ATGTTAACTCAAAGGTGCGTGAGATCATTAGTAATGGCGGTATCAAGAACATCATCGGCATCGACCGTGGGGAGCG CAACTTGTTATATTTAAGTTTAATTGATTTGAAAGGAAACATTGTTATGCAGAAGTCCTTGAATATCCTGAAGGAT GACCATAACGCCAAAGAGACGGACTATAAAGGCTTATTAACAGAGCGTGAGGGTGAAAACAAGGAGGCACGTCGCA ATTGGAAGAAAATCGCGAACATTAAAGACTTAAAGCGCGGCTACCTGTCTCAAGTGGTTCATATCATCTCCAAGAT GATGGTAGAGTACAACGCAATCGTGGTTTTGGAAGACTTGAACCCAGGGTTTATTCGCGGGCGTCAGAAAATTGAG CGTAATGTTTATGAACAGTTCGAACGCATGTTAATCGACAAACTTAACTTCTACGTGGACAAACATAAGGGAGCGA ACGAAACGGGCGGCTTATTGCACGCATTGCAGTTAACATCGGAATTCAAAAATTTCAAAAAATCTGAACACCAAAA TGGATGCTTATTCTACATCCCCGCGTGGAATACGAGCAAGATCGACCCGGCGACTGGGTTCGTGAACTTGTTTAAT ACTAAATATACAAATGCCGTAGAAGCCCAAGAATTTTTCTCCAAATTCGACGAAATCCGCTATAATGAGGAAAAAG ACTGGTTCGAGTTCGAATTCGATTACGATAAGTTTACCCAGAAGGCACACGGAACCCGCACTAAATGGACGCTGTG CACCTATGGCATGCGTCTGCGTTCTTTCAAAAATAGTGCAAAGCAATATAACTGGGACAGCGAGGTGGTGGCATTG ACCGAGGAATTTAAGCGCATTTTGGGAGAAGCCGGCATTGATATCCACGAAAACTTAAAGGATGCTATTTGTAATC TGGAAGGAAAAAGTCAAAAATACCTGGAGCCTCTTATGCAGTTCATGAAGCTGTTGCTGCAACTTCGTAACAGTAA AGCTGGAACAGACGAAGATTATATCTTATCACCAGTCGCTGATGAAAATGGCATTTTTTACGATTCTCGTAGCTGC GGGGACCAATTGCCGGAAAATGCAGACGCTAATGGAGCCTACAATATCGCCCGTAAAGGGTTAATGTTGATCGAAC AAATCAAGAATGCTGAAGACCTTAACAACGTAAAGTTTGATATTAGCAACAAAGCGTGGCTGAATTTTGCCCAGCA AAAGCCCTATAAGAATGGGTGA SEQ ID NO: 37 ART9_Optimized_2 ATGAAGGAGATTAAGGAACTGACGGGACTGTATTCATTGACCAAAACTATTGGAGTGGAACTTAAGCCAGTTGGCA AGACGCAAGAATTGATTGAGGCCAAAAAGCTGATCGAGCAGGACGATCAGCGCGCTGAAGATTACAAGATCGTTAA AGACATCATTGATCGCTATCATAAAGACTTCATTGATAAATGTCTGAACTGCGTTAAAATCAAGAAAGATGATTTG GAGAAGTATGTAAGCTTGGCTGAAAACTCTAACCGCGACGCCGAGGATTTCGACAAAATCAAAACGAAAATGCGCA ACCAGATCACGGAGGCATTTCGTAAGAATAGTCTTTTTACAAACTTATTCAAGAAGAATCTTATTAAAGAATATCT TCCAGCGTTTGTTTCGGAAGAAGAGAAGTCAGTTGTCAATAAATTCTCGAAATTCACGACGTATTTCGACGCCTTT AATGATAACCGCAAGAACCTGTACTCCGGCGATGCAAAATCGGGTACAATCGCGTACCGTTTAATTCACGAAAATT TACCAATGTTTTTGGACAACATTGCGAGTTTCAACGCCATCTCAGGTATCGGAGTAAATGAGTACTTTAGCTCTAT TGAGACGGAATTTACTGACACCTTGGAGGGTAAACGTCTGACGGAATTTTTTCAAATTGACTTTTTTAACAATACT TTAACACAAAAAAAGATTGGCAACTATAATTACATCGTGGGCGCCGTAAATAAAGCTGTTAATTTGTATAAGCAGC AACACAAGACAGTGCGCGTGCCCTTGCTGAAGCCATTATATAAAATGATCCTTAGTGATCGTGTGACTCCGTCTTG GTTACCTGAACGTTTCGAAAGCGACGAGGAGATGTTAACGGCAATCAAGGCAGCTTACGAATCACTGCGTGAAGTT CTTGTAGGTGACAACGATGAATCGTTGCGCAATTTGCTTCTGAACATCGAGCATTACGACCTGGAACACATTTACA TCGCAAATGATAGCGGCTTGACATCAATTAGTCAAAAAATTTTTGGCTGCTACGACACATATACTTTGGCCATCAA GGATCAACTTCAGCGCGACTACCCCGCTACGAAGAAGCAACGTGAAGCTCCTGATTTGTACGATGAGCGCATTGAT AAGTTATACAAGAAGGTAGGCTCATTTAGCATCGCGTATCTTAATCGTTTAGTCGATGCCAAAGGCCACTTCACGA TTAATGAGTATTATAAACAATTAGGCGCATACTGCCGCGAGGAAGGAAAGGAAAAGGACGACTTTTTTAAGCGTAT TGACGGTGCGTACTGCGCAATCAGCCACTTATTTTTTGGCGAGCATGGAGAAATTGCTCAAAGCGACAGTGACGTC GAACTTATTCAAAAATTACTTGAAGCGTATAAAGGTCTGCAGCGCTTTATTAAACCGTTACTGGGCCATGGTGATG AGGCGGATAAAGATAACGAGTTTGATGCCAAGCTTCGTAAAGTGTGGGATGAGCTGGACATTATTACCCCATTATA CGACAAGGTTCGCAATTGGTTGTCACGTAAAATCTACAACCCTGAAAAGATCAAGTTATGCTTCGAAAATAATGGG AAACTGTTATCCGGGTGGGTTGATTCGCGTACGAAGAGCGATAACGGCACCCAATACGGAGGATACATCTTCCGCA AAAAAAACGAGATTGGTGAGTATGACTTCTATTTAGGTATCAGCGCCGACACTAAGCTGTTCCGTCGCGACGCGGC AATCTCCTATGATGATGGTATGTACGAGCGTCTTGATTATTATCAATTGAAGAGTAAAACATTGCTTGGGAACTCG TATGTGGGTGATTACGGCTTAGACAGTATGAATCTGTTAAGTGCATTCAAGAACGCAGCCGTTAAGTTTCAGTTTG AAAAGGAGGTGGTACCAAAAGATAAGGAGAACGTTCCTAAGTACTTGAAACGTTTGAAATTAGATTACGCAGGTTT CTACCAGATCCTTATGAATGATGACAAAGTTGTCGACGCATACAAAATTATGAAGCAGCATATTCTGGCTACACTG ACATCCTCAATTCGCGTACCGGCTGCTATTGAGTTAGCGACGCAAAAAGAGTTGGGTATCGACGAATTGATCGATG AGATTATGAACTTGCCTTCAAAGTCTTTCGGATACTTCCCGATTGTCACTGCAGCTATCGAGGAAGCCAACAAGCG TGAGAATAAACCTTTGTTTTTGTTCAAGATGTCCAATAAAGACTTAAGTTATGCCGCGACTGCATCAAAGGGTCTT CGCAAGGGGCGTGGCACAGAGAACCTTCACTCTATGTATCTGAAAGCTCTGTTGGGGATGACACAGTCGGTTTTCG ACATCGGTTCGGGCATGGTATTCTTTCGCCACCAAACAAAAGGACTGGCAGAGACAACTGCGCGCCATAAGGCAAA TGAGTTCGTCGCGAACAAAAATAAGTTAAATGATAAGAAGAAGTCTATCTTCGGGTACGAAATTGTTAAAAACAAA CGTTTTACTGTAGACAAGTACTTGTTTAAACTTAGCATGAACTTAAACTATAGCCAACCAAATAATAACAAGATTG ATGTTAACAGTAAAGTTCGTGAAATCATCTCCAACGGGGGAATTAAGAACATTATTGGGATCGACCGTGGTGAGCG CAACTTATTGTACCTTTCATTGATCGATTTAAAAGGCAACATCGTGATGCAAAAATCACTGAACATCTTGAAGGAT GATCACAACGCAAAGGAGACAGACTACAAAGGTTTGCTGACTGAGCGTGAAGGCGAGAACAAAGAAGCCCGTCGTA ATTGGAAAAAGATTGCAAATATCAAAGACTTGAAGCGCGGATACTTGTCACAAGTCGTACATATCATCTCTAAGAT GATGGTCGAATATAACGCCATTGTAGTACTGGAGGACTTGAATCCAGGATTCATTCGTGGGCGCCAAAAAATCGAG CGCAATGTCTACGAACAGTTTGAACGCATGTTAATCGATAAACTGAACTTTTACGTCGACAAGCACAAGGGTGCCA ATGAGACAGGAGGATTGTTACACGCACTTCAATTGACGAGTGAGTTTAAAAACTTTAAAAAATCTGAGCACCAAAA CGGCTGTCTTTTCTATATCCCTGCGTGGAATACGTCTAAGATCGACCCCGCCACCGGATTTGTAAATCTGTTCAAC ACTAAGTATACGAACGCTGTGGAGGCACAAGAGTTCTTCTCAAAGTTTGATGAAATTCGTTACAATGAGGAAAAAG ATTGGTTTGAGTTTGAATTTGATTATGACAAATTTACACAGAAGGCCCATGGGACCCGCACCAAGTGGACCCTTTG TACTTACGGAATGCGTCTGCGTAGCTTCAAAAACTCCGCAAAACAGTATAACTGGGACTCCGAAGTAGTTGCATTA ACAGAGGAATTTAAGCGTATTTTGGGTGAAGCAGGAATTGACATCCATGAGAATTTAAAAGATGCCATCTGTAATT TAGAAGGTAAGTCACAAAAGTATTTGGAACCATTGATGCAGTTTATGAAACTGCTGCTTCAACTTCGTAATAGTAA GGCGGGCACCGATGAGGACTATATTCTGTCTCCAGTCGCGGATGAGAATGGGATCTTTTACGACTCACGTTCGTGT GGCGATCAACTGCCAGAAAATGCCGACGCTAACGGGGCCTATAATATTGCTCGCAAGGGTTTGATGTTGATCGAAC AAATTAAAAATGCAGAGGATCTTAACAACGTTAAGTTTGACATTTCTAACAAAGCATGGCTTAATTTTGCTCAACA GAAACCGTACAAAAACGGGTGA SEQ ID NO: 38 ART9_Optimized_3 ATGAAAGAAATTAAAGAACTTACTGGACTTTATTCATTGACAAAGACTATTGGTGTCGAGTTAAAACCTGTAGGCA AGACGCAGGAGTTGATCGAGGCGAAGAAATTGATCGAGCAGGATGATCAGCGCGCCGAGGACTACAAGATCGTAAA AGACATCATCGATCGTTACCATAAAGACTTTATTGACAAGTGCTTAAACTGCGTTAAGATCAAGAAAGATGACCTG GAAAAGTATGTTTCCTTGGCAGAAAACTCTAACCGCGATGCCGAGGACTTTGATAAAATCAAAACCAAAATGCGTA ATCAGATTACCGAGGCATTTCGCAAAAATAGCCTGTTCACAAACCTTTTCAAGAAAAACTTGATCAAAGAATATTT ACCTGCCTTCGTATCGGAGGAGGAGAAATCGGTCGTGAACAAATTCTCAAAATTCACTACGTATTTTGACGCTTTC AACGACAACCGTAAGAACCTTTACTCAGGCGACGCGAAAAGTGGTACTATTGCTTATCGCTTGATTCATGAAAACC TTCCTATGTTCCTTGATAATATTGCTTCCTTCAACGCAATTAGCGGAATTGGGGTGAACGAATACTTTTCGTCTAT TGAAACTGAGTTTACAGACACCTTGGAGGGGAAACGTTTGACCGAATTTTTTCAAATCGATTTCTTTAACAATACC TTAACCCAGAAAAAAATTGGTAACTACAATTACATCGTCGGGGCTGTTAACAAGGCCGTTAATTTATACAAGCAGC AGCACAAAACTGTCCGCGTCCCCCTGTTGAAGCCCTTATACAAGATGATCCTTTCAGATCGCGTAACTCCCTCCTG GTTGCCAGAACGTTTCGAATCAGACGAAGAGATGTTGACCGCAATTAAGGCCGCGTATGAAAGTCTGCGTGAGGTG TTGGTCGGTGACAACGACGAGAGTCTGCGCAATCTTTTGCTTAACATTGAGCATTACGATCTTGAGCACATTTACA TCGCCAATGATTCTGGACTTACTTCAATTTCTCAGAAAATCTTCGGCTGTTACGATACGTACACTTTAGCGATCAA AGACCAATTACAGCGTGACTATCCCGCAACTAAGAAACAGCGTGAAGCCCCGGACTTGTATGATGAACGCATCGAC AAGTTATACAAAAAGGTGGGATCATTCTCTATTGCCTATTTGAATCGTTTGGTTGATGCCAAGGGTCATTTTACGA TTAATGAGTACTACAAACAGTTAGGCGCTTATTGTCGTGAGGAGGGTAAGGAGAAAGACGACTTCTTCAAGCGTAT CGACGGTGCATATTGCGCTATTTCTCATCTGTTTTTCGGGGAACACGGGGAAATCGCACAATCCGACAGTGATGTG GAGTTAATTCAGAAGCTTCTTGAGGCGTATAAAGGACTTCAGCGCTTTATCAAACCTCTGCTTGGGCACGGCGATG AGGCCGACAAGGACAACGAGTTCGATGCTAAGCTTCGCAAGGTGTGGGATGAGCTTGACATTATTACGCCGTTATA TGACAAAGTACGCAATTGGTTATCACGCAAGATTTACAACCCTGAAAAAATCAAGTTGTGTTTTGAAAACAACGGA AAACTTTTATCTGGCTGGGTCGATAGTCGCACTAAGAGCGATAACGGTACACAATACGGCGGCTATATTTTTCGCA AGAAGAATGAGATCGGAGAGTACGATTTCTACCTTGGAATCAGTGCCGACACAAAATTGTTTCGTCGTGACGCCGC AATCAGTTACGATGACGGAATGTACGAGCGCCTGGACTACTACCAACTTAAGTCGAAAACGTTATTGGGCAATAGT TATGTGGGGGACTACGGCCTTGATAGCATGAACCTTCTGTCCGCGTTCAAGAACGCGGCGGTGAAATTCCAATTTG AAAAAGAAGTAGTGCCGAAGGATAAGGAAAACGTTCCGAAGTATTTAAAACGTCTTAAACTGGATTATGCCGGATT CTATCAAATCTTGATGAACGACGATAAGGTAGTAGACGCTTACAAGATCATGAAGCAACACATCTTGGCTACACTT ACGTCCTCAATTCGTGTACCAGCGGCAATCGAGTTGGCGACCCAGAAAGAGCTGGGTATTGACGAGCTGATCGACG AAATCATGAACCTTCCATCCAAGTCTTTCGGTTATTTTCCCATTGTGACGGCCGCTATTGAGGAAGCAAATAAACG TGAAAATAAGCCTTTGTTCCTTTTCAAGATGTCCAACAAGGATCTTTCCTATGCGGCAACAGCTTCGAAAGGCCTG CGCAAAGGACGTGGCACCGAAAATCTTCATTCGATGTATCTGAAGGCATTATTAGGGATGACCCAGTCTGTGTTTG ACATTGGGTCAGGCATGGTTTTTTTTCGCCACCAGACAAAGGGGCTTGCCGAGACCACTGCACGCCACAAGGCCAA CGAGTTTGTAGCGAATAAAAACAAGTTAAATGATAAAAAGAAGTCTATCTTTGGGTACGAAATCGTAAAAAACAAG CGTTTCACTGTTGACAAGTATCTGTTCAAACTGTCAATGAACTTAAATTATTCGCAGCCAAATAACAACAAGATCG ATGTAAACTCCAAGGTGCGCGAGATTATTTCCAATGGTGGAATTAAAAACATTATTGGAATTGACCGTGGAGAACG CAACCTTCTTTACTTATCGTTGATCGATTTGAAGGGCAATATTGTCATGCAGAAGTCACTGAATATCCTTAAAGAT GACCACAACGCCAAAGAAACTGACTACAAGGGTCTTTTAACCGAGCGCGAGGGTGAAAACAAAGAAGCGCGTCGTA ATTGGAAAAAAATTGCTAATATTAAAGATTTAAAACGCGGGTACTTAAGTCAGGTCGTTCATATCATCTCCAAGAT GATGGTTGAATATAATGCAATTGTCGTCTTAGAGGATCTGAATCCAGGTTTCATCCGCGGGCGCCAGAAGATCGAG CGCAATGTCTATGAGCAGTTTGAACGCATGTTAATTGATAAGTTGAACTTCTATGTTGACAAACACAAGGGAGCAA ATGAAACTGGCGGGTTGTTGCATGCATTACAGTTAACCTCTGAATTTAAGAACTTCAAAAAATCTGAGCATCAAAA TGGCTGTCTGTTTTATATCCCGGCTTGGAATACGTCGAAAATTGACCCCGCAACGGGATTCGTTAACCTGTTTAAC ACAAAATACACGAACGCCGTGGAAGCCCAAGAGTTCTTTAGCAAGTTTGATGAGATTCGTTACAATGAGGAAAAAG ATTGGTTCGAGTTTGAGTTCGACTACGATAAGTTCACGCAAAAGGCCCACGGCACGCGCACCAAATGGACATTATG CACATACGGTATGCGCCTGCGCAGCTTCAAAAACAGTGCGAAGCAGTATAACTGGGATTCCGAGGTCGTCGCATTG ACAGAAGAATTTAAGCGTATCTTGGGCGAGGCAGGTATTGATATTCATGAAAACTTAAAAGATGCTATCTGTAACC TTGAGGGGAAAAGCCAGAAATACCTGGAACCCCTTATGCAGTTTATGAAGCTGCTTTTGCAATTACGTAATAGTAA GGCAGGTACTGATGAGGACTACATTCTGTCGCCGGTTGCTGACGAAAATGGGATCTTCTATGATTCCCGTTCTTGC GGGGACCAGTTACCAGAAAACGCTGATGCCAACGGTGCTTACAACATTGCTCGCAAAGGCTTGATGCTTATTGAAC AGATCAAAAACGCCGAGGATTTGAATAATGTAAAATTCGATATTTCTAATAAGGCATGGCTGAACTTTGCCCAGCA AAAGCCCTACAAGAATGGGTGA SEQ ID NO: 39 ART10_WT ATGAATTTTCAACCATTTTTTCAAAAATTTGTACACTTATATCCAATTTCCAAAACCTTACGTTTTGAAC TAATCCCACAGGGTGCAACACAAAAATTTATTTCAGAAAAGCAAGTATTGTTACAAGATGAAATCAGAGC ACGTAAATATCCTGAAATGAAACAGGCGATTGACGGCTACCATAAAGACTTTATCCAACGTGCGCTGAGC AATATTGACAGTCAAGTATTTGAACAGGCATTAAATACATTTGAAGATTTATTTCTACGCTCTCAAGCAG AAAGAGCGACAGATGCCTATAAAAAAGATTTTGAAACAGCACAAACGAAACTAAGAGAATTAATCGTTCA TAGTTTTGAAAAGGGTGAATTTAAACAAGAATATAAATCCCTTTTTGATAAGAATTTAATCACCAATTTA TTAAAGCCTTGGGTGGAACAACAGAATCAAATAGGTGACAGCAACTATACGTATCATGAAGATTTTAATA AATTTACTACCTACTTCTTAGGTTTCCATGAAAATCGTAAAAACATTTATAGCAAGGATCCCCACAAGAC TGCCCTTGCCTACCGTTTAATTCATGAAAATTTACCTAAATTTTTAGAAAACAATAAAATTCTACTCAAA ATCCAAAATGATCATCCTAGTTTGTGGGAACAACTGCAAACACTCAATCAAACGATGCCTCAGTTGTTTG ATGGTTGGGATTTCTCGCAACTGATGCAGGTGTCATTCTTTAGCAATACATTGACCCAAACAGGGATCGA CCAATACAACACCATCATTGGCGGAATTTCTGAAGGTGAAAACCGTCAAAAAATTCAAGGTATCAATGAA CTGATTAATTTATATAACCAAAAACAAGATAAGAAAAATCGTGTCGCAAAACTTAAACAACTGTATAAAC AAATTTTAAGCGACCGCAGCACCCTGTCTTTTTTACCTGAAAAATTTGTTGATGATACCGAGCTATATCA TGCGATCAATATGTTCTATTTAGAACATTTACATCATCAAAGCATGATCAATGGTCACTCTTACACGTTG CTAGAACGTGTGCAATTACTCATCAATGAATTAGCCAACTATGATTTGAGTAAAGTTTATTTAGCACCGA ATCAACTGAGTACTGTTTCCCATCAAATGTTTGGAGATTTTGGCTATATCGGTCGGGCATTAAATTATTA TTATATGCAAGTCATACAACCTGATTATGAACAGTTATTAGCAAGTGCTAAAACAACCAAAAAAATTGAA GCGACTGAAAAACTAAAAACCATATTTCTGGATACCCCTCAAAGCCTTGTGGTGATTCAAGCTGCCATTG ATGAATATATTCAATTACAACCAAGCACAAAGCCACATACACAATTGACCGACTTTATCATCTCTCTACT CAAACAATATGAAACTGTAGCGGATGATCAAAGCATTAAAGTCATCAATGTTTTTAGTGATATTGAAGGT AAATATAGCTGTATCAAAGGTTTAGTGAATACAAAATCTGAGTCAAAACGCGAGGTATTACAAGATGAAA AACTAGCGACTGATATTAAAGCTTTTATGGATGCCGTCAACAATGTCATAAAATTACTTAAACCTTTTTC ACTAAATGAAAAGTTGGTTGCAAGTGTAGAAAAGGATGCACGTTTTTATAGTGACTTTGAAGAAATTTAT CAGTCATTATTAATTTTTGTGCCACTTTATAACAAAGTCCGAAATTACATTACTCAAAAACCGTATAGCA CTGAAAAGTTTAAACTTAATTTTAACAAACCGACCTTACTGAGTGGTTGGGATGCCAATAAAGAAGCCGA TAATTTAAGTATTTTACTTAGAAAAAATGGCAATTATTATTTAGCGATTATGGATACTGCCAAAGGTGCA AATAAAGCCTTTGAGCCTAAGACACTGAACCAGCTCAAAGTCGATGATACAACTGATTGCTATGAAAAAA TGGTCTATAAGCTTTTGTCAGGACCAAGTAAAATGTTCCCTAAAGCTTTTAAAGCTAAAAATAATGAAGG TAACTATTATCCAACTCCAGAGTTACTTACTTCTTATAACAATAACGAGCATTTAAAAAATGATAAAAAT TTCACATTAGCATCATTACATGCCTATATTGATTGGTGTAAAGAGTATATAAATCGCAATCCATCTTGGC ATCAATTTAATTTTAAATTTTCACCCACTCAATCTTTCCAAGATATAAGTCAATTTTATTCGGAAGTTTC TAGTCAGAGTTATAAAGTTCATTTCCAAACGATTCCAAGTGACTATATTGATCAATTGGTGGCTGAAGGC AAACTGTATCTGTTCCAAATTTATAATAAAGACTTTTCACCAAATGCTAAAGGTAAAGAAAATTTACATA CCTTGTATTTTAAAGCCTTATTTAGCGATGAGAATTTAAAACAGCCTGTATTTAAACTCAGTGGCGAAGC AGAAATGTTCTATCGCCCTGCTTCGCTGCAATTGGCAAACACCACCATCCATAAGGCAGGTGAACCAATG GCGGCCAAAAACCCATTGACGCCAAATGCCACTCGTACTTTGGCTTATGACATTATTAAAGATCGGCGTT TTACCACTGACAAATATTTGCTGCATGTACCCATTAGTTTAAATTTTCACGCACAAGAATCAATGAGTAT TAAAAAGCATAATGACTTAGTCCGTCAGATGATTAAGCATAATCATCAAGATCTGCATGTAATTGGGATT GATCGTGGTGAAAAGCATTTACTCTATGTCAGTGTGATCGACTTAAAAGGCAATATTGTCTACCAAGAAA GCCTTAACAGCATTAAATCGGAAGCGCAGAATTTTGAAACGCCTTATCATCAATTGTTGCAGCACCGTGA AGAAGGTCGAGCGCAAGCCCGTACAGCATGGGGCAAAATTGAGAATATTAAAGAACTCAAAGATGGTTAT TTAAGTCAGGTGGTGCATCGTATTCAGCAATTGATTTTAAAATACAATGCGATTGTGATGTTAGAAGACC TCAATTTTGGCTTTAAACGTGGTCGTTTTAAAATTGAAAAACAAATTTATCAAAAGTTTGAAAAAGCCCT GATTCATAAACTCAATTATGTGGTCGATAAATCTACCCAAGCTGATGAACTTGGTGGTGTGCGTAAAGCC TATCAATTGACTGCCCCTTTTGAATCCTTTGAAAAATTAGGTAAACAATCAGGCGTGTTATTTTATGTCC CTGCTTGGAACACCAGTAAAATTGACCCTGTGACAGGCTTTGTTGATCTACTTAAACCCAAATATGAAAA CTTAGACAAAGCTCAAGCCTTTTTTAATGCCTTTGACAGCATTCACTATAATGCTCAAAAAAACTATTTT GAATTTAAGGTCAATTTAAAGCAGTTTGCAGGGCTCAAAGCTCAAGCGGCTCAAGCAGAATGGACGATTT GCTCTTATGGTGATGAACGCCATGTGTATCAAAAGAAAAATGCACAGCAGGGTGAAACAGTCATTGTAAA TGTGACTGAAGAATTAAAAGTCCTGTTTGCAAAGAACAACATTGAAGTTGCACAAAGTGTTGAACTTAAA GAGACGATTTGTACCCAAACACAGGTCGACTTCTTTAAACGCTTGATGTGGCTGTTACAAGTATTGTTGG CACTGCGTTATAGCAGCAGTAAAGATAAACTCGATTATATTTTGTCTCCTGTTGCCAATGCACAAGGTGA GTTTTTTGATTCACGCCATGCATCGGTACAATTACCACAAGACTCCGATGCAAACGGTGCGTACCATATT GCCTTAAAAGGTTTATGGGTGATTGAACAACTTAAAGCTGCTGATAATTTGGATAAGGTCAAACTTGCCA TTAGCAATGATGATTGGCTTCACTTTGCACAACAAAAACCATATCTTGCTTAA SEQ ID NO: 40 ART10_Optimized_1 ATGAACTTCCAACCATTTTTTCAGAAGTTCGTTCATTTATATCCGATCTCTAAGACGCTGCGTTTTGAACTTATCC CCCAGGGGGCAACACAGAAATTTATTAGTGAGAAACAAGTGTTGTTGCAGGACGAAATTCGCGCGCGTAAATATCC GGAGATGAAACAAGCTATTGATGGGTACCATAAGGATTTTATCCAGCGCGCGCTTTCAAATATCGATTCTCAGGTT TTCGAACAAGCCCTTAACACGTTTGAGGATCTGTTCTTGCGTTCTCAGGCTGAACGCGCTACTGACGCATACAAAA AGGACTTTGAGACCGCCCAGACAAAATTACGTGAATTGATCGTACATAGCTTTGAAAAAGGTGAATTTAAGCAGGA ATACAAGTCATTGTTTGATAAAAACCTGATCACGAATTTGCTTAAGCCCTGGGTGGAGCAACAGAATCAGATCGGA GATAGTAATTACACGTATCACGAAGATTTCAATAAATTCACGACTTATTTTCTTGGCTTCCATGAGAACCGCAAGA ACATTTACTCAAAGGATCCTCACAAAACAGCTTTAGCATACCGTCTTATTCATGAAAACTTACCAAAGTTTCTTGA AAATAACAAAATTTTGCTGAAAATTCAGAACGACCACCCTTCGCTGTGGGAGCAGTTGCAAACTCTGAACCAAACC ATGCCGCAACTGTTCGATGGTTGGGACTTTTCACAACTGATGCAAGTGTCATTTTTTAGCAATACCCTTACCCAAA CCGGTATCGATCAGTACAATACCATTATTGGCGGTATCAGTGAGGGTGAAAATCGCCAAAAAATCCAGGGGATCAA CGAGCTTATCAACCTGTATAATCAAAAGCAAGACAAGAAAAATCGTGTTGCTAAGTTGAAGCAGCTTTACAAGCAG ATTCTTTCAGATCGCTCGACTTTATCGTTTTTGCCGGAGAAATTTGTCGATGACACCGAGTTGTACCATGCGATCA ATATGTTTTACCTTGAGCATTTACATCACCAGTCAATGATTAACGGGCATAGCTATACCCTGTTAGAGCGCGTTCA GCTGTTAATCAATGAGTTGGCCAACTACGATTTATCTAAAGTTTATCTTGCACCTAACCAGCTGTCTACTGTCTCA CATCAAATGTTCGGTGATTTTGGTTACATCGGGCGCGCGCTTAATTATTACTATATGCAAGTTATCCAGCCCGATT ACGAACAGCTGCTTGCCTCCGCGAAAACGACTAAGAAGATCGAGGCGACGGAAAAGTTAAAGACGATCTTCCTGGA TACGCCTCAGAGCCTTGTCGTAATTCAAGCTGCTATTGACGAATATATTCAATTACAGCCTAGCACTAAACCTCAT ACCCAATTGACTGATTTCATCATTAGTCTTTTGAAACAGTACGAGACTGTCGCGGACGATCAGAGTATTAAAGTCA TCAACGTCTTCTCGGACATCGAGGGGAAGTATTCGTGTATTAAAGGCTTAGTTAATACTAAGAGTGAGTCGAAGCG CGAGGTCCTGCAGGACGAGAAACTGGCAACGGATATTAAAGCTTTCATGGATGCGGTCAATAATGTCATCAAATTG CTGAAGCCATTCAGCTTAAACGAGAAGTTAGTTGCATCCGTAGAGAAGGATGCACGTTTCTACTCCGACTTCGAAG AAATCTACCAGTCACTTCTGATCTTTGTCCCCTTGTACAATAAGGTACGCAATTACATTACCCAAAAACCGTACTC TACAGAGAAGTTCAAACTTAATTTTAATAAGCCCACTTTATTATCGGGGTGGGATGCAAACAAGGAAGCTGACAAT TTAAGCATCTTATTGCGTAAAAACGGGAACTATTATTTGGCCATCATGGATACTGCGAAAGGGGCCAACAAGGCGT TTGAGCCAAAGACACTTAATCAACTGAAGGTAGATGACACGACCGATTGCTATGAAAAAATGGTATATAAGCTGTT ATCAGGACCATCTAAGATGTTCCCGAAAGCTTTCAAGGCTAAAAATAACGAAGGTAATTACTACCCTACCCCCGAG CTTCTTACATCATATAATAATAATGAGCATCTGAAGAATGACAAAAACTTCACACTGGCATCATTGCATGCATATA TTGACTGGTGCAAGGAGTACATCAATCGTAACCCCTCTTGGCATCAATTTAACTTCAAATTTTCCCCTACACAATC CTTCCAGGATATTTCACAATTTTATAGCGAAGTGTCATCTCAGAGTTATAAGGTACACTTTCAAACAATCCCCTCG GATTATATTGACCAGCTGGTAGCAGAGGGTAAACTTTACTTGTTTCAGATCTATAACAAGGACTTTTCGCCCAACG CCAAAGGGAAAGAAAATCTGCATACCCTGTATTTTAAAGCACTTTTTAGTGACGAAAACCTGAAGCAGCCTGTATT TAAGTTGAGCGGTGAGGCGGAAATGTTTTACCGTCCAGCTTCTTTACAATTGGCAAACACCACGATTCATAAAGCG GGTGAACCAATGGCCGCGAAGAACCCCCTGACGCCGAATGCGACCCGTACCTTGGCGTACGATATTATTAAGGACC GCCGTTTTACTACAGATAAATACTTATTACACGTCCCCATCTCTTTAAATTTCCACGCTCAGGAATCGATGTCGAT TAAGAAACACAACGATCTGGTACGTCAGATGATTAAACATAATCATCAGGATCTTCATGTTATTGGGATTGATCGT GGCGAGAAGCATCTGTTGTATGTCAGTGTGATTGATTTAAAAGGGAATATTGTTTACCAAGAATCCCTTAATTCGA TCAAATCCGAGGCGCAGAATTTTGAGACCCCTTACCACCAATTGTTACAACATCGTGAGGAGGGGCGTGCCCAAGC TCGCACAGCCTGGGGTAAGATTGAGAACATTAAAGAGTTAAAAGATGGCTACCTTTCACAAGTTGTTCATCGTATT CAGCAGCTTATTCTGAAGTACAACGCGATCGTGATGCTGGAGGACCTTAATTTCGGTTTTAAACGCGGTCGTTTCA AAATTGAAAAGCAGATTTACCAAAAATTCGAAAAAGCCTTAATTCACAAGCTGAACTATGTTGTCGACAAGTCCAC TCAAGCAGATGAATTAGGGGGCGTCCGTAAGGCCTATCAATTGACGGCGCCCTTCGAGTCTTTTGAAAAGTTGGGA AAGCAAAGTGGTGTCCTGTTCTATGTACCGGCGTGGAACACTTCGAAAATCGATCCCGTGACGGGTTTCGTAGATT TGCTTAAGCCGAAATACGAGAATTTAGATAAAGCACAGGCCTTCTTCAACGCTTTTGATAGTATCCATTATAATGC ACAAAAAAATTATTTTGAATTCAAAGTAAACTTGAAGCAATTCGCCGGGTTGAAAGCGCAGGCCGCGCAGGCGGAA TGGACGATCTGTTCTTACGGTGACGAGCGTCACGTGTATCAGAAGAAGAACGCCCAGCAGGGCGAAACAGTCATCG TGAACGTTACGGAAGAGTTGAAAGTCCTTTTCGCTAAAAACAACATTGAAGTGGCTCAAAGTGTTGAACTGAAAGA AACTATCTGTACCCAGACTCAGGTAGACTTCTTTAAACGCCTGATGTGGTTGTTACAGGTACTTCTGGCGCTTCGT TATAGCTCTAGCAAGGATAAACTTGATTACATCTTGAGTCCTGTGGCTAACGCACAAGGCGAGTTCTTCGACTCCC GTCACGCTTCAGTGCAGCTTCCCCAGGACAGTGATGCTAATGGTGCGTACCACATTGCGCTGAAAGGGCTGTGGGT CATCGAACAACTTAAAGCCGCTGATAACTTAGATAAAGTGAAACTGGCAATTAGTAATGATGACTGGTTGCATTTT GCTCAACAAAAGCCATACCTTGCCTAA SEQ ID NO: 41 ART10_Optimized_2 ATGAACTTTCAACCGTTCTTCCAGAAATTCGTGCATTTATATCCCATCTCTAAAACTTTGCGTTTTGAGTTAATTC CGCAAGGAGCCACACAAAAGTTTATCAGCGAAAAGCAAGTGCTGTTACAAGATGAAATTCGCGCTCGCAAATATCC GGAGATGAAGCAGGCAATTGACGGGTATCATAAAGATTTCATCCAGCGTGCCCTTAGTAACATCGATTCACAGGTG TTCGAGCAGGCTTTAAATACGTTTGAGGATCTTTTTTTGCGTTCGCAAGCGGAACGCGCGACTGACGCGTACAAGA AAGATTTCGAGACCGCACAAACTAAACTTCGCGAACTTATCGTCCACTCTTTCGAGAAAGGCGAGTTTAAACAGGA GTATAAAAGCTTGTTCGACAAAAACCTTATTACTAACTTGTTAAAACCATGGGTCGAACAGCAGAACCAAATTGGG GATAGTAATTATACTTACCACGAAGATTTCAACAAGTTCACAACGTATTTCCTTGGCTTTCATGAGAACCGTAAGA ACATCTATAGCAAGGACCCACACAAGACAGCGCTTGCTTATCGTCTTATCCATGAGAACCTGCCAAAGTTCTTAGA GAACAATAAGATCCTGCTGAAGATCCAGAACGACCATCCCTCTCTTTGGGAACAGTTACAGACTCTTAATCAGACG ATGCCACAATTGTTCGACGGTTGGGACTTCAGCCAACTGATGCAGGTTAGCTTCTTTTCAAATACTCTTACCCAGA CTGGAATTGATCAGTATAATACTATTATTGGTGGAATTAGTGAAGGCGAAAATCGCCAAAAGATTCAGGGCATCAA TGAGCTGATCAATCTGTACAATCAGAAACAGGACAAGAAGAACCGCGTTGCTAAATTGAAGCAATTATATAAACAG ATCCTTTCAGATCGTTCAACCCTGAGTTTTCTTCCAGAAAAATTCGTAGATGACACCGAATTGTACCACGCTATTA ACATGTTCTATTTGGAGCACTTGCACCATCAATCGATGATTAATGGGCACTCATACACCCTTTTAGAGCGTGTCCA ACTTCTGATTAATGAGCTTGCAAACTATGATTTGTCTAAGGTATATCTGGCTCCGAATCAACTGAGCACGGTTTCC CACCAGATGTTTGGGGATTTCGGATACATCGGACGCGCTTTAAACTACTACTACATGCAGGTGATTCAACCCGACT ACGAGCAACTGTTGGCATCTGCTAAGACCACTAAGAAGATCGAAGCAACCGAGAAATTGAAGACAATCTTCCTGGA CACCCCGCAGTCTCTGGTTGTAATCCAGGCCGCTATCGATGAGTACATCCAGCTGCAGCCATCCACCAAGCCACAC ACGCAATTAACGGACTTCATTATCTCCTTGTTGAAGCAATATGAAACCGTGGCAGATGACCAATCTATTAAGGTGA TCAATGTCTTCTCTGACATTGAGGGGAAGTACAGTTGCATTAAAGGGTTGGTTAACACGAAGTCGGAATCCAAACG TGAGGTCTTGCAGGACGAGAAGCTGGCGACGGACATTAAAGCATTTATGGACGCCGTAAATAATGTGATCAAACTT TTAAAGCCTTTTTCGTTAAATGAAAAACTGGTCGCTTCTGTAGAGAAGGATGCCCGCTTTTATTCGGACTTTGAGG AAATCTATCAATCTTTGCTGATCTTTGTTCCCTTATACAATAAGGTACGCAATTATATTACCCAGAAGCCCTACTC CACTGAGAAGTTCAAACTTAACTTCAATAAGCCAACTTTATTAAGTGGTTGGGATGCGAATAAAGAGGCGGATAAC TTATCGATCTTACTGCGTAAAAATGGGAACTATTACTTGGCCATCATGGATACAGCGAAAGGAGCCAACAAGGCTT TCGAACCCAAAACACTTAACCAACTGAAGGTCGACGATACTACAGATTGTTACGAAAAAATGGTCTATAAATTATT GTCTGGCCCATCCAAGATGTTCCCAAAAGCATTTAAGGCGAAAAACAATGAGGGAAACTATTATCCGACCCCGGAG CTTTTGACTTCCTATAACAACAATGAACATCTGAAAAACGACAAAAATTTTACGCTGGCGTCCTTGCATGCGTATA TTGATTGGTGCAAAGAGTATATCAATCGCAATCCGAGTTGGCATCAATTCAATTTTAAGTTCTCGCCCACTCAAAG CTTCCAAGACATTTCGCAATTCTACTCCGAGGTTTCTAGCCAGTCGTATAAAGTCCACTTCCAAACCATCCCGTCC GACTACATTGATCAATTGGTCGCCGAAGGGAAACTTTACCTTTTCCAAATCTATAATAAGGATTTCTCTCCAAACG CTAAAGGGAAAGAAAATCTGCACACCTTATACTTTAAAGCGCTGTTCTCAGACGAGAACTTGAAGCAACCCGTATT TAAGCTGAGTGGAGAGGCGGAGATGTTTTACCGTCCGGCTAGCCTGCAGTTGGCAAACACGACGATTCATAAGGCA GGGGAACCAATGGCGGCCAAGAACCCGCTGACACCGAACGCAACTCGTACGCTGGCATATGATATCATCAAGGATC GTCGCTTCACGACAGACAAGTACCTGCTTCATGTACCTATCTCGCTTAATTTCCACGCGCAGGAATCCATGTCTAT CAAAAAGCACAACGATTTGGTCCGCCAGATGATTAAACATAATCATCAGGATTTGCATGTAATCGGTATTGATCGT GGTGAGAAGCATTTGTTATATGTCTCTGTTATTGACTTGAAGGGAAACATTGTTTATCAAGAGTCGTTAAATTCTA TCAAAAGCGAGGCGCAAAACTTTGAAACTCCCTACCACCAACTTCTTCAGCACCGCGAGGAAGGACGTGCTCAAGC CCGTACGGCATGGGGCAAAATCGAGAATATCAAAGAGTTGAAGGACGGTTATCTGTCTCAGGTCGTACATCGTATT CAACAGCTTATTCTGAAGTATAACGCAATTGTAATGTTAGAGGACCTTAATTTCGGGTTCAAACGCGGTCGCTTCA AAATCGAAAAACAAATTTACCAAAAGTTCGAGAAGGCCTTGATTCATAAGCTGAATTACGTCGTAGACAAGAGTAC TCAAGCAGATGAGTTGGGGGGGGTTCGTAAGGCTTATCAACTGACAGCCCCTTTTGAGTCCTTCGAAAAATTAGGG AAGCAATCGGGTGTTCTGTTTTACGTTCCGGCCTGGAACACCTCTAAAATCGACCCTGTGACTGGTTTCGTAGATT TGTTAAAGCCAAAATATGAAAATCTGGACAAAGCACAGGCGTTCTTCAACGCCTTCGACAGCATTCATTATAATGC ACAAAAGAACTATTTCGAATTTAAAGTAAATTTAAAACAGTTCGCCGGTCTGAAGGCACAGGCTGCACAAGCAGAA TGGACTATTTGCTCATATGGGGACGAGCGTCATGTCTACCAAAAGAAAAACGCCCAGCAGGGTGAAACCGTGATCG TGAACGTCACTGAGGAGTTAAAGGTGCTTTTTGCTAAGAACAACATTGAGGTCGCTCAGAGTGTTGAGTTGAAGGA GACCATCTGCACACAAACTCAGGTTGATTTCTTTAAGCGTCTTATGTGGTTGCTTCAAGTCTTACTTGCTCTTCGT TACTCGTCCTCGAAGGACAAACTTGACTACATCTTGTCGCCTGTAGCAAATGCCCAGGGCGAGTTCTTTGATTCTC GTCACGCGTCGGTTCAGTTGCCGCAAGACTCAGATGCGAACGGCGCGTATCACATTGCGCTGAAAGGATTGTGGGT AATCGAACAACTGAAAGCGGCAGATAACCTTGACAAGGTCAAGCTTGCAATTAGTAACGATGATTGGCTGCATTTC GCTCAACAGAAGCCGTATTTAGCGTAA SEQ ID NO: 42 ART10_Optimized_3 ATGAACTTTCAGCCGTTCTTTCAGAAGTTTGTCCATCTGTATCCTATCAGCAAAACACTTCGTTTCGAATTGATCC CACAAGGGGCAACGCAAAAGTTTATCTCCGAGAAACAGGTACTTCTGCAGGACGAGATCCGTGCTCGTAAATATCC TGAAATGAAGCAAGCTATTGATGGATACCACAAAGACTTCATCCAACGTGCCTTGTCAAATATTGATAGCCAAGTC TTTGAACAAGCTCTTAATACATTTGAAGATTTATTCCTTCGCAGTCAAGCCGAACGTGCTACTGATGCGTACAAGA AGGATTTCGAGACCGCTCAGACAAAATTGCGTGAACTTATCGTGCATAGTTTTGAAAAAGGCGAATTTAAGCAAGA GTATAAATCCCTTTTTGATAAAAATTTAATTACCAACCTTTTGAAACCATGGGTTGAGCAGCAAAACCAAATTGGC GACTCTAACTACACCTACCACGAGGACTTCAATAAGTTTACGACTTATTTCTTGGGGTTTCATGAGAATCGCAAGA ATATCTATTCTAAAGACCCACACAAGACTGCACTTGCGTATCGCCTGATTCATGAGAACTTGCCTAAATTCCTGGA GAATAATAAAATCCTTCTGAAAATTCAAAATGACCATCCAAGCTTATGGGAGCAACTGCAGACATTAAACCAGACT ATGCCCCAACTTTTTGACGGTTGGGATTTCAGTCAATTGATGCAAGTATCCTTTTTTAGTAACACTTTGACACAGA CTGGCATCGACCAATACAATACAATTATCGGCGGCATTAGTGAAGGTGAGAACCGTCAAAAGATTCAGGGTATCAA TGAACTTATCAACTTGTATAACCAAAAACAAGATAAGAAAAACCGTGTCGCCAAATTAAAGCAATTGTATAAACAA ATTCTGTCCGATCGTTCCACGCTGAGCTTTCTTCCTGAGAAGTTTGTAGACGATACGGAATTGTACCATGCTATTA ATATGTTTTACCTGGAACATTTACACCATCAATCGATGATCAATGGGCACAGCTACACCCTGTTAGAACGCGTACA GTTGCTTATTAACGAGCTTGCTAATTACGACTTATCAAAGGTATATCTGGCCCCCAACCAACTGTCAACTGTGTCC CACCAAATGTTTGGTGATTTCGGCTATATCGGACGCGCCTTGAATTATTATTACATGCAAGTTATTCAACCAGATT ATGAACAACTGCTGGCGTCGGCTAAAACAACGAAAAAGATCGAGGCCACGGAGAAGCTTAAGACAATTTTTTTAGA CACTCCACAATCATTGGTCGTGATTCAGGCTGCGATCGATGAGTATATTCAGCTTCAACCGTCTACCAAACCGCAT ACGCAACTTACGGATTTTATTATCTCATTGTTAAAACAATATGAGACAGTCGCCGACGATCAGTCTATTAAAGTCA TCAACGTCTTTTCCGATATTGAGGGTAAATACTCGTGTATTAAGGGATTAGTCAACACAAAGTCGGAGAGCAAACG CGAGGTATTGCAAGACGAGAAATTGGCCACTGACATTAAAGCCTTTATGGATGCTGTAAATAATGTTATCAAGCTG CTGAAACCATTCAGTCTTAATGAGAAGTTGGTTGCTTCTGTCGAAAAGGATGCTCGCTTCTACTCGGACTTCGAAG AGATCTATCAGTCATTACTGATCTTCGTTCCTCTTTATAATAAGGTGCGTAATTACATCACTCAAAAACCATACAG TACTGAGAAGTTTAAGTTGAATTTTAATAAACCTACTTTATTATCGGGCTGGGATGCAAATAAGGAAGCCGACAAC TTGAGCATCTTGCTTCGCAAGAACGGGAATTATTATTTAGCAATCATGGACACCGCAAAGGGGGCCAACAAGGCAT TCGAACCCAAAACTTTGAACCAGCTGAAAGTTGATGACACAACAGACTGCTATGAGAAGATGGTATACAAGCTTCT GAGCGGGCCCTCGAAAATGTTTCCCAAAGCCTTCAAAGCCAAAAACAATGAAGGTAACTATTATCCGACTCCTGAG CTTTTGACAAGTTACAACAACAACGAACATTTAAAAAATGACAAAAATTTCACGTTGGCGTCTCTGCATGCATATA TCGATTGGTGTAAGGAGTATATCAACCGTAACCCATCGTGGCACCAATTTAATTTCAAGTTCTCACCTACACAGTC ATTCCAAGATATTAGTCAGTTTTATAGCGAGGTCTCAAGTCAATCGTACAAAGTTCATTTTCAAACAATCCCTAGT GATTATATCGATCAGCTGGTCGCAGAGGGCAAATTATATCTTTTCCAGATCTATAACAAGGACTTTAGCCCTAATG CGAAGGGAAAAGAGAATCTGCACACTTTATACTTTAAAGCTTTGTTTTCCGATGAGAATTTAAAACAGCCTGTATT CAAGTTGAGTGGGGAAGCCGAAATGTTTTATCGTCCTGCATCGTTACAATTGGCAAATACCACAATTCATAAGGCT GGCGAACCAATGGCTGCCAAAAACCCCCTGACTCCGAATGCCACTCGTACGCTTGCATATGATATTATTAAGGACC GTCGTTTTACAACCGATAAATACCTGCTTCACGTACCGATTTCTTTAAACTTCCATGCACAGGAGTCGATGTCGAT TAAAAAGCATAACGACCTGGTACGCCAGATGATCAAACACAATCATCAGGACTTACACGTAATTGGGATCGACCGC GGAGAAAAGCACTTGTTGTATGTCTCTGTAATTGACTTGAAAGGGAATATCGTCTATCAAGAGTCCTTAAACTCGA TTAAGTCAGAAGCGCAAAACTTTGAAACCCCCTATCACCAACTTTTGCAACATCGTGAAGAGGGGCGCGCTCAGGC CCGCACTGCCTGGGGAAAGATCGAAAACATCAAGGAATTAAAAGACGGCTACCTGTCCCAAGTGGTGCATCGTATC CAACAACTTATCTTAAAGTACAACGCTATTGTCATGTTGGAAGATTTAAACTTTGGCTTCAAGCGTGGACGCTTTA AAATCGAGAAACAGATTTATCAGAAGTTTGAAAAGGCTCTGATTCATAAATTGAATTATGTGGTAGACAAGTCAAC TCAAGCCGATGAACTTGGCGGTGTGCGTAAGGCATACCAATTAACCGCACCGTTTGAGAGTTTCGAAAAGTTGGGA AAACAATCCGGCGTCCTGTTTTACGTCCCTGCGTGGAACACCAGCAAAATCGATCCTGTCACCGGGTTCGTGGACC TTTTGAAGCCCAAATACGAAAACTTGGACAAGGCACAGGCCTTCTTCAATGCTTTCGATTCAATCCATTACAACGC TCAAAAGAACTATTTTGAGTTCAAGGTCAATCTGAAACAATTCGCAGGGCTTAAAGCACAAGCAGCTCAAGCTGAA TGGACTATCTGCTCGTATGGGGACGAACGTCACGTTTATCAGAAGAAGAATGCACAACAGGGGGAAACGGTCATCG TCAATGTTACCGAAGAATTGAAAGTTTTATTTGCTAAAAACAACATTGAAGTTGCACAATCAGTAGAGCTTAAAGA AACCATCTGCACGCAAACGCAGGTCGACTTTTTCAAGCGTCTTATGTGGCTTCTGCAGGTACTGTTAGCACTGCGT TACTCTTCTAGCAAGGATAAACTGGATTATATCCTTTCCCCCGTAGCCAATGCACAAGGAGAGTTCTTCGACTCAC GCCACGCATCGGTACAATTACCGCAAGACAGTGACGCAAATGGTGCGTACCATATCGCCCTGAAGGGTTTATGGGT CATCGAGCAACTGAAAGCTGCCGACAATTTAGACAAGGTCAAATTAGCAATTTCGAACGACGATTGGTTGCACTTC GCACAGCAGAAACCTTATTTAGCATAA SEQ ID NO: 43 ART11_WT ATGTATTATCAGGGTTTAACAAAGCTATATCCAATTAGTAAAACTATTAGAAACGAATTAATTCCTGTAG GAAAGACTTTAGAACATATTAGAATGAATAATATTCTTGAGGCTGATATTCAGAGAAAATCAGATTATGA ACGTGTAAAGAAGCTAATGGATGACTATCATAAGCAATTAATAAATGAGTCTTTGCAAGATGTCCATTTG TCTTATGTTGAGGAGGCAGCTGATCTATATCTAAATGCTTCTAAGGATAAAGATATTGTAGATAAGTTTA GTAAGTGTCAGGATAAATTGCGAAAAGAGATAGTTAATCTCTTGAAGAGTCATGAAAACTTTCCAAAGAT AGGAAACAAGGAAATAATAAAATTACTACAGAGTCTTTCTGATACTGAAAAAGACTATAACGCGTTGGAT TCATTTAGCAAGTTTTATACATATTTTACTAGCTACAATGAGGTTAGAAAGAATTTGTATTCCGATGAAG AAAAATCATCCACAGCGGCATATCGATTGATAAATGAAAATTTGCCTAAATTTCTAGATAATATTAAGGC TTATTCTATTGCTAAATCTGCAGGTGTGCGAGCTAAAGAACTGACCGAAGAAGAACAGGATTGTCTTTTT ATGACTGAAACTTTTGAAAGGACACTTACTCAGGATGGAATTGATAATTATAACGAATTGATTGGAAAGC TTAATTTTGCGATTAATCTATATAATCAGCAAAATAATAAACTCAAGGGATTTCGTAAAGTACCTAAGAT GAAAGAACTGTATAAACAGATTTTGTCGGAAAGAGAGGCATCATTTGTTGATGAATTTGTTGATGATGAA GCATTGCTAACTAACGTAGAGTCTTTTTCTGCACATATTAAAGAGTTTTTGGAATCGGATTCTCTTTCAA GATTTGCGGAAGTCCTTGAAGAATCTGGTGGGGAAATGGTTTATATAAAAAATGATACTTCAAAGACAAC ATTTTCAAATATAGTATTTGGCTCTTGGAACGTAATTGATGAAAGATTGGCAGAGGAATATGATTCTGCT AATTCTAAGAAAAAGAAGGACGAAAAATATTACGATAAGCGTCATAAAGAACTGAAAAAGAACAAGAGCT ATTCTGTGGAGAAGATAGTTTCATTATCAACGGAAACAGAGGATGTGATTGGAAAATATATAGAGAAGCT TCAAGCGGACATTATTGCTATAAAAGAGACGCGAGAAGTTTTTGAGAAAGTTGTTCTTAAGGAGCATGAT AAGAATAAATCTCTTAGAAAGAATACTAAAGCCATCGAGGCAATTAAATCATTTTTAGATACAATAAAAG ATTTTGAGCGAGATATAAAACTTATTAGCGGTAGCGAGCATGAGATGGAGAAGAATCTTGCCGTTTATGC AGAGCAAGAGAATATTTTATCTTCAATTAGAAATGTGGATTCTCTATACAATATGTCAAGAAATTATCTC ACCCAAAAGCCTTTTTCAACAGAAAAGTTTAAGTTGAATTTTAATAGGGCAACATTATTAAATGGGTGGG ATAAAAATAAAGAAACTGATAATCTAGGTATTCTTTTGGTAAAAGAAGGAAAATATTACTTAGGAATTAT GAATACTAAAGCTAATAAAAGTTTTGTAAATCCACCTAAGCCGAAGACAGACAATGTATATCATAAAGTG AATTATAAGCTATTACCAGGACCAAATAAGATGTTGCCTAAGGTCTTTTTTGCAAAGTCAAATCTTGAAT ATTACAAACCATCAGAAGACTTGCTAGCAAAATATCAAGCGGGTACACATAAGAAAGGAGAGAATTTTTC TTTAGAAGATTGCCATTCATTGATTTCTTTCTTTAAAGACTCTCTAGAAAAGCATCCAGACTGGTCAGAA TTTGGATTTAAGTTTTCTGATACAAAAAAATATGATGATTTGAGTGGATTTTATAGAGAGGTAGAGAAGC AAGGATATAAGATAACATATACGGATATTGATGTAGAGTATATTGATAGTTTGGTTGAAAAAGATGAGTT GTATCTTTTCCAAATCTACAATAAGGATTTCTCGCCATATAGTAAGGGGAATTATAATCTCCACACGCTA TATCTGACGATGTTATTTGATGAGCGTAATTTACGTAATGTGGTTTATAAATTAAATGGTGAGGCTGAAG TTTTTTATAGACCTGCTTCAATTGGAAAGGATGAACTAATTATTCATAAATCTGGAGAGGAAATAAAGAA TAAGAATCCAAAGAGGGCTATTGATAAACCAACAAGTACATTCGAATATGATATCGTCAAAGATCGAAGA TATACTAAGGATAAATTTATGTTACATATTCCAGTAACTATGAATTTTGGCGTGGATGAAACTAGAAGAT TCAATGAGGTCGTTAATGATGCTATAAGGGGAGATGATAAAGTTAGAGTCATTGGAATTGATAGAGGCGA GAGAAATTTATTATATGTAGTAGTTGTTGATTCTGATGGAACTATTTTGGAGCAGATTTCTCTTAATTCT ATTATTAATAATGAGTATTCGATAGAAACAGATTATCACAAATTGCTGGATGAGAAAGAAGGGGATAGAG ACAGAGCACGCAAAAATTGGACTACTATAGAAAATATTAAAGAACTTAAAGAGGGGTATCTAAGTCAGGT AGTTAATGTTATAGCAAAATTGGTTTTGAAATATGATGCTATTATCTGCCTTGAAGATTTGAATTTTGGA TTTAAGCGTGGACGTCAAAAAGTTGAAAAACAGGTATATCAGAAATTCGAAAAAATGCTTATTGATAAAT TGAATTATTTAGTTATTGATAAGAGTAGAAGCCAAGAGAATCCTGAAGAAGTTGGACATGTCTTGAATGC GTTACAGTTAACTTCAAAATTTACTAGTTTTAAGGAATTAGGTAAACAGACAGGTATTATTTATTACGTT CCTGCGTATTTAACTAGTAAAATTGATCCGACAACAGGTTTCGCAAATCTCTTTTACGTAAAATATGAGA GTGTTGAAAAGTCCAAAGATTTCTTTAATAGATTTGATAGCATTTGTTTTAACAAAGTAGCAGGTTATTT TGAGTTTAGCTTTGATTATAAAAACTTTACTGATAGAGCCTGTGGTATGAGAAGTAAATGGAAAGTATGT ACCAATGGTGAACGAATCATTAAATATAGAAATGAAGAAAAGAACAGTTCTTTTGATGATAAGGTGATAG TTTTAACGGAAGAATTTAAGAAGTTGTTCAATGAGTATGGCATTGCTTTTAATGATTGTATGGACCTGAC TGATGCAATAAATGCTATTGATGATGCTAGTTTCTTCAGAAAGTTGACTAAATTGTTCCAACAGACATTG CAGATGCGAAATAGTTCGGCTGATGGTTCCAGAGATTATATTATCTCGCCAGTTGAGAATGATAACGGGG AGTTTTTTAACTCCGAAAAATGCGATAAATCAAAACCAAAAGATGCTGATGCTAATGGAGCATTTAATAT TGCCAGAAAGGGATTATGGGTGTTAGAACAACTTTATAATTCATCATCAGGAGAAAAGCTTAATTTAGCA ATGACAAATGCTGAATGGTTAGAGTATGCACAGCAACATACGATTTAA SEQ ID NO: 44 ART11_Optimized_1 ATGTATTACCAGGGGTTGACCAAATTGTACCCGATCAGCAAGACAATCCGTAACGAGCTTATCCCTGTTGGAAAAA CGTTGGAGCACATTCGCATGAATAATATTTTAGAGGCCGACATCCAGCGCAAATCGGATTATGAGCGTGTCAAGAA GTTGATGGATGACTATCACAAACAGTTGATCAACGAGTCGTTGCAAGATGTTCACTTGAGTTACGTCGAAGAAGCC GCCGATCTGTACTTAAATGCTTCCAAAGACAAAGATATTGTGGATAAGTTTTCGAAGTGTCAAGACAAGCTTCGCA AGGAGATTGTGAACCTTTTAAAGAGCCACGAGAACTTTCCGAAGATCGGAAATAAGGAGATCATTAAGTTACTTCA GTCATTGAGTGACACTGAAAAAGACTACAACGCTCTTGACTCTTTCTCAAAGTTTTACACGTATTTTACTTCATAT AATGAGGTGCGTAAAAACTTGTATTCCGACGAGGAAAAAAGCTCAACAGCCGCCTACCGTCTTATTAACGAGAACT TACCTAAGTTCCTGGATAATATTAAGGCTTACAGCATTGCCAAGAGCGCAGGGGTGCGTGCGAAAGAACTGACGGA GGAGGAGCAAGATTGTTTGTTTATGACAGAGACATTCGAGCGCACATTAACTCAGGACGGGATTGATAATTACAAC GAACTGATTGGCAAGCTTAATTTTGCGATCAACTTATATAACCAACAAAATAACAAACTGAAGGGCTTCCGTAAGG TACCGAAAATGAAGGAACTTTATAAACAAATTCTGAGTGAACGTGAAGCAAGTTTTGTAGACGAATTTGTAGATGA CGAGGCTTTACTGACCAACGTTGAAAGCTTCAGCGCACACATTAAAGAATTTTTAGAGAGTGATTCGTTATCTCGC TTTGCCGAGGTATTAGAAGAGTCGGGGGGAGAAATGGTATACATTAAGAACGACACCTCGAAGACAACCTTCAGTA ACATCGTTTTCGGATCATGGAATGTCATCGACGAACGCTTGGCCGAGGAATACGACAGCGCAAACTCCAAAAAGAA GAAAGATGAAAAGTATTATGATAAACGCCACAAAGAGCTGAAAAAGAATAAATCCTATTCAGTGGAAAAGATCGTC AGCTTAAGTACAGAGACTGAGGACGTGATTGGTAAATATATTGAAAAACTTCAGGCTGATATCATCGCAATCAAGG AAACACGTGAAGTCTTTGAAAAGGTAGTTCTGAAGGAACACGATAAAAACAAGAGCCTGCGTAAGAATACCAAAGC CATTGAGGCAATCAAATCTTTTTTAGATACTATCAAAGATTTTGAGCGTGATATCAAACTGATTTCAGGGTCTGAG CACGAAATGGAGAAAAACCTTGCTGTGTACGCAGAGCAAGAAAACATCCTGTCGTCGATTCGTAATGTAGATTCTT TGTACAATATGTCCCGTAACTACTTAACGCAGAAGCCTTTTAGTACCGAAAAATTTAAACTTAACTTCAATCGCGC CACCTTATTAAATGGTTGGGACAAAAATAAAGAAACTGATAACTTAGGCATCTTGCTGGTGAAGGAAGGAAAATAT TATCTTGGGATCATGAATACAAAGGCAAACAAGTCATTCGTGAATCCCCCGAAGCCGAAAACAGACAATGTATACC ACAAAGTAAACTACAAACTTCTTCCAGGCCCAAATAAAATGTTACCGAAGGTCTTCTTCGCTAAGTCAAACCTGGA ATATTATAAACCTTCGGAAGATTTATTGGCAAAATATCAGGCCGGGACGCACAAAAAAGGGGAGAATTTCTCCCTT GAAGACTGTCACTCTCTTATCTCGTTTTTCAAAGACTCGTTGGAGAAGCACCCTGACTGGAGTGAATTCGGGTTTA AGTTTAGCGATACTAAGAAGTATGATGACCTGAGCGGTTTCTACCGCGAGGTGGAGAAGCAAGGATATAAAATTAC CTATACCGACATTGATGTTGAGTACATCGATAGTCTTGTCGAAAAGGATGAGCTTTACTTGTTTCAAATCTACAAT AAAGACTTTTCACCTTATAGTAAAGGTAACTACAATCTGCACACACTGTACCTGACGATGCTGTTCGATGAGCGTA ATTTGCGTAACGTCGTCTATAAATTGAATGGTGAGGCGGAGGTTTTCTACCGCCCAGCGTCTATCGGCAAGGACGA ATTGATTATCCACAAGAGTGGAGAGGAAATTAAGAACAAGAATCCTAAACGTGCTATTGACAAGCCAACCTCCACG TTTGAGTACGATATTGTTAAAGACCGCCGCTACACTAAGGATAAGTTTATGCTGCACATTCCAGTGACAATGAACT TTGGCGTTGATGAGACCCGCCGTTTTAACGAGGTCGTCAACGATGCAATTCGTGGGGACGACAAGGTACGTGTCAT TGGTATTGACCGTGGCGAGCGCAATCTGCTGTACGTCGTCGTGGTTGACTCTGACGGGACGATCCTTGAGCAAATT AGTCTGAATTCCATTATTAATAACGAATACAGCATTGAAACCGACTACCATAAGCTTTTGGACGAAAAGGAAGGCG ACCGTGACCGCGCTCGTAAAAATTGGACTACAATTGAGAATATCAAAGAATTAAAAGAAGGCTACCTTAGCCAAGT TGTAAACGTGATCGCAAAATTGGTATTGAAATACGATGCCATCATCTGTTTGGAAGATTTAAACTTTGGGTTTAAA CGTGGCCGCCAAAAAGTGGAGAAGCAGGTATATCAAAAGTTTGAAAAGATGTTAATTGATAAACTTAATTATTTGG TAATTGACAAATCCCGTAGCCAAGAAAATCCGGAAGAGGTGGGTCATGTCCTGAACGCCCTTCAATTAACTAGTAA GTTCACTAGCTTTAAGGAGTTGGGCAAACAAACTGGCATTATCTATTACGTCCCGGCCTATCTTACCAGCAAGATT GACCCTACCACTGGCTTCGCCAATTTATTTTACGTCAAGTATGAAAGTGTAGAGAAGTCTAAAGACTTTTTTAATC GTTTTGATTCGATCTGTTTCAACAAGGTAGCCGGATACTTTGAGTTTAGTTTCGACTACAAAAATTTCACAGACCG CGCCTGCGGCATGCGTAGCAAGTGGAAAGTCTGTACGAATGGAGAACGCATCATTAAATATCGCAACGAGGAAAAG AATTCGTCATTCGATGATAAGGTCATCGTGCTGACCGAAGAATTTAAGAAGCTTTTTAACGAATATGGTATCGCGT TCAATGACTGTATGGATTTAACAGACGCTATCAATGCGATTGATGATGCTAGCTTTTTCCGCAAGCTGACAAAGTT ATTTCAACAAACATTGCAAATGCGCAACTCCTCCGCTGACGGCTCTCGCGATTATATTATTTCTCCCGTAGAAAAC GATAATGGAGAGTTCTTTAATAGCGAGAAGTGTGACAAATCGAAACCAAAGGACGCCGATGCTAACGGTGCGTTCA ATATTGCACGCAAGGGACTTTGGGTCTTAGAGCAGTTGTATAACAGCTCCAGCGGTGAAAAACTTAATCTGGCCAT GACCAATGCTGAATGGTTGGAGTACGCGCAGCAGCACACCATCTAA SEQ ID NO: 45 ART11_Optimized_2 ATGTACTATCAGGGACTGACTAAGCTTTATCCCATCTCGAAAACGATTCGCAATGAATTGATCCCAGTCGGGAAAA CGTTAGAGCATATCCGTATGAATAATATTCTTGAAGCAGACATCCAGCGCAAGTCCGATTACGAGCGTGTGAAAAA ATTAATGGATGATTATCATAAACAATTAATCAATGAGTCGTTGCAGGATGTGCATTTGTCATACGTGGAGGAAGCG GCTGACCTTTACTTAAATGCTTCTAAAGATAAGGATATCGTTGACAAGTTCAGCAAGTGCCAAGATAAATTGCGCA AGGAAATCGTGAACCTGCTGAAGAGCCATGAGAATTTTCCGAAGATCGGGAATAAAGAGATTATTAAGCTTTTGCA AAGCCTTTCCGATACGGAAAAAGATTACAATGCGTTGGACTCGTTCTCGAAGTTTTATACCTACTTTACCTCATAT AATGAAGTACGCAAAAATCTTTATTCAGATGAAGAAAAGTCTAGTACGGCTGCCTATCGTCTGATCAATGAAAATC TTCCAAAGTTTCTGGACAATATTAAAGCTTACTCAATCGCCAAGTCGGCGGGAGTGCGCGCGAAGGAATTGACAGA GGAGGAACAAGACTGTTTGTTCATGACGGAAACCTTTGAACGCACTCTTACGCAAGACGGGATTGACAACTACAAT GAATTGATCGGAAAGCTGAACTTTGCCATTAATTTGTATAATCAGCAAAACAACAAGCTTAAAGGTTTCCGTAAAG TCCCTAAGATGAAGGAGTTGTACAAACAAATCCTTAGCGAGCGTGAAGCATCCTTTGTGGATGAATTTGTAGATGA CGAGGCCTTGTTGACCAATGTGGAATCGTTCTCAGCACACATTAAGGAGTTTTTAGAATCCGACTCACTGTCCCGT TTTGCTGAAGTTTTGGAAGAGAGTGGGGGGGAAATGGTTTATATTAAGAATGATACCTCTAAGACGACTTTTTCGA ATATCGTCTTTGGGTCATGGAATGTGATCGACGAGCGTTTGGCCGAGGAGTACGATAGTGCCAATTCCAAAAAAAA AAAAGACGAAAAGTATTATGATAAACGTCACAAAGAACTTAAGAAGAACAAATCCTATTCCGTAGAGAAGATTGTG TCACTGTCTACAGAAACTGAGGATGTAATTGGAAAGTACATTGAGAAGCTTCAAGCCGATATCATCGCTATCAAAG AGACCCGTGAAGTGTTTGAAAAAGTCGTCCTGAAAGAACACGATAAGAACAAATCACTGCGTAAGAACACGAAAGC TATCGAAGCTATTAAGTCGTTCCTTGACACTATCAAGGACTTCGAACGTGATATCAAATTAATCTCGGGTTCAGAA CACGAAATGGAAAAAAATTTAGCGGTTTACGCTGAACAGGAAAATATTTTAAGCAGTATTCGTAACGTCGACTCAT TATACAACATGTCGCGCAATTACCTTACTCAAAAACCATTTTCCACGGAAAAATTTAAGTTGAATTTCAATCGTGC CACCCTTTTAAATGGTTGGGACAAGAATAAGGAAACGGATAACCTTGGAATTTTACTGGTTAAGGAGGGAAAGTAT TATTTGGGCATCATGAACACTAAGGCTAACAAAAGCTTCGTTAACCCGCCCAAGCCGAAGACAGATAATGTATACC ACAAAGTTAATTATAAACTGTTGCCAGGTCCGAATAAGATGCTTCCCAAGGTGTTCTTCGCCAAAAGCAACCTGGA GTACTACAAGCCGTCTGAGGATCTTCTTGCTAAATATCAGGCTGGCACGCATAAGAAGGGCGAAAATTTTAGCTTA GAAGACTGCCACAGCCTGATTTCATTCTTCAAGGACAGTTTGGAAAAGCATCCTGATTGGTCAGAGTTTGGATTTA AATTTTCGGATACAAAAAAATACGACGACCTTTCGGGTTTCTACCGTGAGGTAGAAAAACAAGGATATAAGATCAC ATATACCGATATCGACGTAGAGTACATCGACTCCTTAGTAGAGAAAGACGAGCTGTATTTATTCCAGATTTACAAT AAGGACTTTTCACCATACTCTAAAGGGAATTATAATCTGCACACCTTGTACCTTACAATGTTATTCGACGAACGTA ATCTGCGCAACGTGGTATACAAGCTGAATGGGGAAGCGGAAGTATTTTATCGCCCCGCTTCAATCGGTAAAGACGA ATTAATTATCCATAAGTCAGGGGAGGAGATCAAGAATAAGAATCCTAAACGTGCTATTGATAAGCCCACATCCACG TTCGAGTATGATATTGTAAAGGACCGCCGCTATACAAAGGATAAGTTTATGTTACATATCCCGGTTACCATGAACT TCGGTGTGGACGAGACTCGCCGTTTCAATGAGGTCGTTAATGACGCAATTCGTGGTGACGATAAAGTCCGTGTCAT TGGAATCGATCGCGGAGAACGTAATTTATTGTACGTGGTCGTAGTGGACTCCGATGGAACAATTTTGGAACAGATC TCTCTTAATTCGATCATCAATAATGAATACAGTATCGAGACGGACTACCACAAATTACTTGATGAAAAGGAGGGTG ATCGCGACCGTGCTCGCAAGAACTGGACAACGATTGAGAATATCAAAGAACTGAAGGAGGGTTATCTTTCGCAGGT CGTTAATGTGATCGCAAAATTGGTATTAAAATACGATGCAATCATCTGCTTAGAAGATTTGAATTTCGGTTTCAAA CGCGGACGCCAAAAAGTCGAGAAGCAGGTCTACCAGAAGTTTGAAAAGATGTTAATCGACAAATTGAATTACCTTG TAATCGATAAATCTCGTTCACAAGAAAATCCAGAAGAAGTTGGACACGTTCTGAACGCGTTACAACTGACAAGCAA ATTTACAAGCTTTAAAGAGCTTGGGAAACAAACTGGTATCATCTATTATGTTCCAGCCTATTTGACATCCAAGATC GATCCAACTACTGGTTTCGCGAACTTGTTTTACGTCAAATATGAGTCAGTGGAAAAGTCAAAGGATTTTTTCAATC GCTTTGATAGTATTTGCTTTAACAAAGTGGCCGGCTATTTCGAATTTAGCTTTGATTACAAGAACTTCACTGACCG TGCTTGCGGTATGCGTTCGAAGTGGAAAGTGTGTACTAACGGCGAGCGCATCATCAAATATCGTAACGAAGAGAAG AACTCCTCCTTCGACGACAAGGTCATCGTCCTTACCGAAGAATTTAAAAAATTGTTTAATGAATATGGTATTGCTT TCAATGATTGTATGGACTTGACGGATGCAATTAACGCTATCGACGACGCGAGCTTCTTCCGTAAATTGACCAAATT ATTTCAGCAGACGCTGCAAATGCGCAACAGCAGTGCTGATGGGTCGCGTGATTACATCATTAGTCCGGTCGAGAAC GATAATGGGGAGTTTTTCAACTCTGAAAAATGCGACAAGTCAAAGCCTAAGGACGCAGATGCCAATGGAGCGTTTA ACATTGCCCGTAAGGGTTTGTGGGTGCTGGAGCAATTATACAACAGTAGCTCTGGGGAGAAGCTGAACCTGGCAAT GACTAATGCCGAGTGGTTAGAGTACGCGCAACAACACACTATCTAA SEQ ID NO: 46 ART11_Optimized_3 ATGTATTACCAGGGCTTAACTAAGTTATATCCGATCTCAAAGACCATTCGCAATGAGTTGATTCCCGTAGGCAAGA CACTTGAACACATCCGCATGAATAACATTCTTGAAGCAGACATCCAACGCAAATCGGATTACGAGCGCGTAAAAAA GTTGATGGATGATTATCACAAACAATTAATCAACGAATCTCTTCAGGACGTACACTTAAGCTACGTGGAAGAGGCT GCAGATCTGTACCTTAATGCCAGTAAGGACAAAGATATTGTAGATAAATTCTCGAAATGTCAGGACAAACTTCGTA AGGAGATCGTAAATTTGCTTAAGTCACACGAAAACTTCCCAAAAATCGGTAATAAAGAAATCATCAAGCTGCTTCA ATCTCTTAGCGACACAGAAAAAGATTACAATGCTTTGGACTCGTTTTCTAAGTTCTACACATATTTCACGAGTTAC AATGAAGTACGCAAAAATTTATACAGCGACGAAGAGAAGAGCAGCACCGCGGCATATCGCTTGATCAATGAGAATC TGCCCAAATTTTTAGATAACATCAAGGCTTATTCGATTGCTAAGTCGGCAGGGGTTCGCGCGAAGGAGCTTACAGA AGAGGAACAGGATTGTCTGTTTATGACAGAAACCTTCGAGCGTACTCTGACACAGGATGGGATTGACAACTACAAC GAATTAATCGGAAAACTTAATTTTGCGATTAACCTGTACAATCAACAAAATAACAAGCTGAAGGGCTTCCGTAAAG TGCCCAAGATGAAAGAACTTTATAAACAAATCTTGAGTGAGCGCGAGGCATCTTTCGTGGACGAATTTGTTGACGA TGAGGCCTTGCTGACCAATGTGGAGAGCTTTTCTGCCCACATCAAGGAGTTCCTGGAATCAGATAGTCTTAGTCGC TTTGCGGAAGTTCTTGAGGAAAGCGGGGGTGAGATGGTATACATTAAAAATGATACATCTAAAACTACTTTCAGCA ATATCGTGTTTGGGTCGTGGAACGTCATCGACGAGCGCCTGGCAGAAGAATACGACAGCGCTAATTCGAAAAAAAA AAAAGATGAGAAATACTATGACAAACGCCACAAAGAGCTGAAAAAAAATAAAAGCTATAGTGTCGAAAAAATTGTC TCTCTGTCTACCGAAACTGAAGATGTTATTGGTAAATATATTGAAAAACTGCAAGCTGATATCATCGCAATCAAAG AAACCCGTGAGGTATTCGAGAAAGTCGTACTGAAGGAACATGACAAGAACAAGTCTCTTCGTAAGAACACCAAAGC CATTGAAGCCATTAAGTCATTCCTTGACACTATCAAGGATTTTGAACGTGACATTAAACTGATCAGTGGGAGCGAA CACGAGATGGAGAAAAACTTGGCCGTCTATGCCGAACAAGAAAATATTTTAAGTTCAATTCGTAACGTTGATTCCC TTTACAATATGTCACGTAACTATTTGACACAAAAGCCGTTTTCAACAGAAAAGTTCAAGTTGAACTTTAACCGCGC AACATTACTTAATGGATGGGACAAGAACAAAGAGACGGATAATCTTGGCATCCTGCTGGTCAAAGAAGGCAAATAT TATTTGGGTATTATGAATACTAAGGCAAATAAATCATTCGTTAACCCCCCTAAGCCTAAAACCGACAACGTGTATC ATAAGGTGAATTACAAGTTATTACCTGGCCCCAACAAAATGCTGCCGAAAGTTTTCTTCGCAAAGTCTAATTTGGA GTACTACAAACCTTCTGAAGATCTTCTGGCTAAATATCAGGCGGGAACCCACAAAAAAGGTGAAAATTTTAGCTTG GAAGATTGCCACAGTTTAATTTCCTTTTTTAAGGATTCCTTAGAAAAACACCCAGATTGGTCCGAATTCGGCTTCA AATTTTCAGATACTAAGAAGTATGACGATCTGTCGGGCTTCTACCGCGAGGTGGAAAAACAAGGGTACAAGATTAC TTATACAGATATCGACGTCGAGTATATTGACTCTTTGGTTGAAAAGGACGAACTGTATCTTTTTCAGATCTACAAC AAAGACTTTAGTCCTTACAGTAAGGGCAACTACAACCTTCATACTTTATACCTGACAATGCTTTTCGACGAACGCA ATCTTCGTAACGTGGTTTATAAATTGAATGGCGAGGCAGAAGTGTTTTACCGCCCGGCGTCTATTGGAAAGGACGA GCTTATCATCCATAAGTCCGGGGAAGAGATCAAGAATAAGAACCCTAAGCGCGCTATTGACAAACCGACATCCACG TTTGAATACGATATTGTTAAGGACCGCCGCTACACTAAAGACAAATTCATGTTGCATATTCCGGTCACCATGAATT TTGGGGTTGATGAAACACGTCGTTTCAATGAAGTAGTAAACGATGCTATCCGCGGAGACGATAAGGTACGCGTCAT TGGAATTGATCGCGGAGAACGCAATCTGTTATACGTAGTTGTCGTAGACTCAGATGGGACCATTCTGGAGCAGATT AGCTTGAACAGTATTATCAACAACGAGTATTCAATTGAGACCGATTACCATAAACTGTTAGATGAAAAAGAGGGTG ATCGTGATCGTGCGCGCAAGAATTGGACGACTATCGAAAATATCAAGGAATTAAAAGAGGGATACCTGTCTCAGGT AGTAAATGTGATTGCTAAGTTGGTGCTGAAATACGACGCTATCATCTGCTTGGAGGATCTTAACTTCGGTTTCAAG CGTGGGCGCCAAAAGGTCGAGAAACAGGTCTACCAAAAGTTTGAAAAAATGTTAATTGACAAATTGAACTACTTAG TGATTGATAAATCACGCTCACAGGAAAACCCAGAGGAAGTTGGACACGTTTTAAACGCCTTACAACTGACGAGTAA GTTTACCTCTTTTAAAGAATTAGGTAAACAGACGGGCATCATTTATTATGTCCCTGCCTACTTAACCAGTAAGATC GATCCGACGACAGGATTTGCTAATCTTTTCTATGTCAAATACGAAAGCGTAGAAAAAAGTAAAGATTTCTTTAACC GCTTCGACTCCATTTGCTTCAATAAAGTAGCCGGCTACTTCGAATTTTCGTTCGACTACAAGAACTTTACCGACCG CGCGTGCGGTATGCGTAGCAAATGGAAGGTTTGCACAAATGGTGAGCGTATCATCAAGTATCGCAACGAAGAAAAA AACAGCAGCTTTGACGATAAGGTGATCGTGTTGACGGAGGAATTTAAGAAGCTGTTCAACGAATATGGTATTGCTT TCAATGATTGTATGGACTTGACGGATGCCATTAACGCAATTGACGATGCAAGCTTTTTTCGTAAGTTGACTAAATT GTTTCAACAAACTCTGCAAATGCGTAATTCTTCGGCAGACGGTTCTCGCGATTACATTATTTCGCCGGTAGAGAAT GATAACGGCGAATTCTTCAATTCGGAAAAGTGCGACAAGAGCAAACCTAAGGATGCGGATGCGAACGGGGCCTTCA ACATCGCCCGTAAAGGGTTGTGGGTGCTGGAGCAATTATACAATAGTTCATCAGGAGAGAAACTTAATCTGGCGAT GACTAATGCTGAGTGGCTGGAGTACGCCCAACAACATACAATCTAA SEQ ID NO: 47 ART12_WT ATGGCTAAGAATTTTGAAGATTTTAAAAGACTTTATCCTCTTTCAAAGACTTTGCGCTTTGAAGCGAAGC CTATTGGCGCCACTTTGGATAATATAGTTAAGAGTGGTTTGTTGGAAGAAGATGAACACAGAGCTGCAAG CTATGTGAAGGTGAAGAAATTGATTGATGAATACCACAAGGTATTTATTGATAGAGTGTTGGATAATGGA TGTTTGCCTTTGGATGATAAAGGTGATAATAATTCATTGGCAGAATATTATGAGAGCTATGTATCTAAAG CGCAAGATGAGGATGCAATAAAGAAGTTTAAGGAAATTCAGCAAAATCTTCTCTCTATTATAGCTAAAAA GCTAACAGACGATAAGGCTTATGCTAATTTGTTTGGTAATAAACTTATAGAGTCATATAAGGACAAAGCT GATAAGACAAAGCTAATTGATTCAGATTTGATTCAATTCATCAATACTGCGGAATCAACTCAACTTGTTT CAATGTCACAAGATGAGGCCAAAGAACTCGTAAAAGAATTCTGGGGCTTTACTACATATTTTGAAGGTTT CTTCAAAAATCGTAAAAATATGTATACTCCAGAAGAAAAGTCTACTGGTATTGCTTATCGTCTAATCAAT GAAAACCTTCCAAAGTTCATTGATAATATGGAGGCTTTCAAGAAAGCTATCGCTAGACCAGAGATACAGG CTAACATGGAAGAGTTATACTCTAATTTTTCTGAATACTTAAATGTAGAAAGTATTCAGGAGATGTTCCT GCTTGACTATTACAATATGCTTCTTACTCAAAAGCAGATTGATGTCTATAATGCTATAATTGGAGGAAAA ACCGATGATGAGCACGATGTTAAGATTAAAGGTATCAACGAGTATATCAATCTCTATAATCAGCAGCATA AAGATGACAAGTTACCAAAACTTAAGGCATTGTTTAAGCAGATTCTTAGTGATAGAAATGCAATATCTTG GTTGCCAGAAGAGTTCAATAGTGATCAGGAAGTCTTGAATGCAATCAAGGATTGCTATGAGCGATTGGCT GAAAATGTTTTGGGTGATAAGGTTCTCAAGTCTTTGCTTGGTTCTTTGGCAGATTATTCTCTTGATGGGA TATTTATCCGTAATGACTTGCAGTTGACTGATATTTCTCAGAAAATGTTTGGAAATTGGGGTGTGATTCA GAATGCTATCATGCAGAATATAAAGCATGTTGCTCCTGCAAGAAAGCATAAGGAGTCTGAGGAAGATTAC GAAAAAAGAATTGCTGGTATATTCAAAAAGGCAGATAGTTTTAGTATCAGTTATATAAATGATTGCTTGA ACGAAGCAGATCCTAATAATGCCTACTTTGTAGAGAACTATTTCGCAACATTTGGAGCGGTAAATACTCC AACAATGCAGCGTGAGAATCTGTTTGCGCTTGTTCAAAATGCGTATACAGAAGTTGCTGCATTACTTCAT TCTGATTATCCTACGGTAAAGCATCTGGCACAAGACAAGGCTAATGTTTCTAAAATCAAAGCACTGTTGG ATGCAATAAAGTCTTTGCAGCATTTCGTGAAGCCTCTGTTGGGCAAGGGTGATGAAAGTGATAAAGATGA ACGTTTCTATGGTGAACTAGCTTCGTTGTGGGCAGAACTTGATACAGTGACACCGCTGTATAATATGATT CGTAATTATATGACTCGTAAACCATATTCTCAAAAGAAAATCAAACTTAACTTTGAGAATCCTCAATTGC TTGGTGGTTGGGATGCTAATAAGGAGAAAGACTATGCTACCATTATCTTACGTCGTAATGGGTTGTATTA TCTTGCTATTATGGACAAAGACTCAAGGAAGTTATTGGGTAAGGCAATGCCGTCAGATGGGGAGTGCTAT GAGAAAATGGTATATAAGTTCTTCAAAGACGTGACAACGATGATACCAAAGTGTAGTACACAATTAAAAG ATGTACAAGCTTATTTTAAGGTTAATACAGATGATTACGTCTTAAATAGCAAGGCGTTTAACAGGCCATT GACGATAACAAAGGAAGTCTTTGATTTGAACAATGTATTGTATGGTAAGTATAAGAAATTCCAAAAGGGA TACTTGACTGCTACTGGTGATAATGTAGGTTATACTCATGCTGTAAACGTATGGATAAAATTCTGTATGG ATTTTTTGGACAGCTATGATAGCACTTGCATATATGATTTCTCTTCTTTGAAACCGGAGTCATATTTGTC ACTCGACTCTTTCTATCAGGATGTTAATTTGTTGTTGTATAAATTGTCGTTTACAGATGTATCTGCATCA TTTATTGATCAGCTTGTTGAGGAGGGAAAGATGTATCTGTTCCAAATCTACAATAAGGATTTCTCTGAGT ATAGCAAGGGCACTCCAAATATGCATACTCTTTATTGGAAAGCATTGTTTGATGAACGTAATCTGGCAGA TGTAGTTTACAAGCTTAACGGACAGGCAGAGATGTTCTATCGTAAGAAAAGTATAGAAAATACTCATCCA ACTCATCCTGCTAATCATCCTATTCTTAATAAGAATAAGGATAACAAGAAAAAAGAAAGCTTGTTTGAAT ATGATCTTATAAAAGATCGTCGCTACACTGTTGATAAATTTATGTTCCATGTGCCAATCACAATGAACTT TAAAAGTTCTGGTTCTGAGAACATCAATCAAGATGTGAAGGCGTATTTGCGTCACGCAGATGATATGCAT ATTATTGGTATTGATCGTGGCGAACGTCATTTGCTGTATTTGGTTGTAATTGATTTGCAAGGTAATATCA AGGAGCAGTTCTCGCTTAATGAAATTGTGAATGATTATAATGGTAATACCTATCATACCAATTATCACGA TTTGTTGGATGTTCGTGAAGACGAACGACTCAAAGCTCGTCAAAGTTGGCAGACCATCGAAAATATCAAA GAGCTGAAAGAGGGCTATTTGTCTCAGGTTATCCACAAGATTACACAGCTCATGGTTAGATATCATGCCA TTGTTGTTTTGGAAGATCTGAGCAAGGGATTTATGCGTAGTCGTCAAAAGGTAGAAAAGCAAGTATATCA GAAGTTTGAAAAAATGTTGATAGATAAGCTTAACTATTTGGTAGACAAAAAAACTGATGTTTCTACTCCT GGAGGCTTGCTGAATGCATACCAACTTACCTGTAAGTCTGATAGTTCTCAAAAGTTAGGAAAACAGAGCG GATTCCTGTTCTATATCCCTGCATGGAATACATCTAAGATAGACCCAGTTACAGGATTTGTCAACTTGTT GGATACTCATTCTTTAAATTCTAAAGAGAAAATCAAAGCATTCTTCTCTAAGTTTGATGCTATCCGTTAT AATAAGGATAAGAAATGGTTTGAGTTTAATCTCGACTATGACAAGTTTGGTAAAAAAGCGGAAGATACAA GGACTAAGTGGACTTTATGCACCAGAGGAATGCGTATTGATACTTTCAGAAATAAAGAAAAGAACTCGCA GTGGGATAATCAGGAAGTTGACTTGACAACAGAGATGAAATCTTTATTGGAGCATTATTATATCGACATT CATGGTAATCTCAAGGATGCTATCAGTACGCAAACAGACAAAGCGTTCTTTACTGGCTTGCTGCACATAT TGAAGTTGACCTTGCAGATGCGTAATAGTATTACTGGAACCGAAACAGATTACTTAGTGTCTCCTGTTGC CGATGAGAATGGAATATTCTACGATAGCCGTTCTTGTGGTGATCAGCTTCCTGAGAATGCGGATGCTAAT GGTGCTTACAACATCGCTCGCAAGGGACTGATGTTGGTTGAGCAGATAAAAGATGCTGAGGATTTGGATA ATGTGAAGTTTGATATATCCAATAAGGCTTGGCTCAATTTTGCACAACAAAAGCCATATAAGAATGGATG A SEQ ID NO: 48 ART12_Optimized_1 ATGGCAAAGAACTTTGAAGACTTTAAACGCTTATACCCCTTATCGAAGACACTTCGCTTTGAAGCAAAGCCGATCG GGGCCACGCTGGATAATATCGTGAAATCGGGGCTGTTAGAGGAAGACGAACACCGCGCCGCCTCCTACGTCAAGGT CAAAAAACTTATCGATGAGTACCATAAGGTCTTTATTGATCGTGTTTTGGACAACGGTTGTTTACCGCTGGATGAT AAAGGTGACAATAATTCTCTTGCCGAATACTACGAATCGTATGTATCAAAAGCCCAAGACGAGGATGCAATTAAGA AATTCAAAGAAATTCAGCAAAATTTGCTGAGTATTATCGCAAAGAAACTTACAGACGATAAAGCCTATGCCAACTT ATTCGGAAATAAACTTATCGAAAGTTACAAAGACAAAGCGGACAAAACGAAGCTTATTGATAGCGACTTGATTCAG TTTATTAATACGGCTGAGTCTACCCAATTAGTTTCCATGTCACAAGACGAAGCTAAGGAGTTGGTAAAAGAATTTT GGGGCTTTACTACCTATTTCGAAGGCTTCTTCAAGAACCGTAAGAATATGTATACCCCAGAAGAAAAGAGTACAGG GATCGCTTACCGCTTAATCAACGAAAACTTACCAAAATTCATTGACAACATGGAGGCGTTCAAAAAAGCGATCGCC CGTCCCGAGATCCAAGCAAACATGGAAGAACTTTACTCTAACTTCTCTGAGTACCTGAACGTAGAGTCTATTCAAG AGATGTTCCTGCTTGACTACTACAACATGCTGTTAACTCAAAAGCAGATTGATGTGTACAATGCCATCATTGGGGG CAAGACAGACGACGAACATGACGTCAAGATCAAGGGGATTAATGAATATATCAACTTGTATAACCAGCAGCATAAA GATGACAAATTACCAAAGCTGAAAGCTCTTTTCAAACAGATCCTGTCTGACCGTAATGCCATCTCCTGGTTGCCTG AGGAGTTCAATTCTGACCAGGAGGTGCTTAACGCGATTAAAGACTGTTACGAGCGTCTGGCGGAAAACGTTTTGGG TGATAAGGTCCTTAAAAGCCTTCTGGGCTCATTAGCAGATTATTCGTTGGATGGGATCTTCATCCGTAATGACCTT CAGCTTACGGATATTTCGCAGAAGATGTTTGGGAATTGGGGGGTTATTCAGAACGCAATTATGCAAAACATCAAAC ACGTTGCTCCGGCACGCAAGCATAAGGAGTCAGAGGAGGACTATGAAAAGCGTATCGCAGGAATTTTTAAAAAAGC TGACTCGTTTTCCATCTCATATATCAACGACTGTCTTAATGAAGCTGACCCGAATAATGCATATTTTGTTGAAAAC TACTTTGCCACTTTCGGTGCCGTAAATACGCCAACAATGCAGCGTGAAAATTTGTTTGCACTTGTCCAAAATGCGT ATACCGAAGTCGCAGCACTTCTGCATTCTGATTATCCGACTGTTAAACATCTGGCTCAGGACAAAGCTAACGTCTC GAAGATCAAGGCATTATTGGACGCAATTAAATCCTTACAGCACTTCGTCAAGCCGTTGCTGGGGAAGGGGGATGAG TCAGACAAGGATGAACGCTTTTACGGTGAACTTGCCTCCTTGTGGGCCGAGCTGGATACCGTCACCCCTCTGTATA ATATGATTCGTAACTACATGACGCGTAAGCCCTACAGTCAGAAGAAGATTAAGTTGAACTTTGAGAATCCGCAATT ATTGGGAGGCTGGGATGCCAACAAGGAGAAGGATTATGCTACCATCATTCTGCGTCGTAACGGGCTTTACTACTTA GCGATCATGGACAAGGACAGCCGTAAATTATTAGGTAAGGCCATGCCTTCTGACGGCGAATGCTACGAAAAAATGG TCTACAAATTTTTTAAGGATGTTACTACCATGATTCCGAAGTGTTCCACGCAACTTAAAGACGTGCAGGCCTACTT TAAGGTTAACACCGATGACTACGTCCTGAATTCTAAGGCTTTTAACCGTCCGCTGACAATTACTAAAGAAGTTTTC GACTTAAATAATGTCTTGTATGGCAAATACAAGAAATTCCAAAAGGGATATTTGACTGCGACTGGCGATAATGTAG GCTATACGCACGCAGTCAATGTATGGATTAAATTTTGCATGGATTTCTTGGACTCATACGACAGTACGTGCATCTA TGATTTCTCGAGCCTTAAGCCCGAGTCGTATTTGTCGTTGGATAGTTTTTATCAGGACGTTAACCTGTTATTATAC AAGCTGAGCTTTACTGACGTGTCGGCCTCGTTTATCGATCAATTAGTGGAAGAAGGGAAAATGTACCTGTTTCAAA TTTATAACAAAGACTTTTCAGAGTATTCAAAGGGGACTCCAAATATGCACACGCTGTATTGGAAGGCTTTATTTGA TGAGCGCAACTTGGCAGACGTCGTTTATAAGCTTAACGGACAAGCTGAGATGTTTTATCGCAAGAAGTCGATCGAA AATACCCACCCGACACATCCCGCAAATCATCCCATCTTGAATAAAAACAAAGATAATAAGAAGAAGGAAAGTCTTT TTGAGTATGATTTAATTAAAGACCGCCGTTACACAGTTGATAAGTTCATGTTCCACGTACCGATCACGATGAATTT TAAAAGTAGCGGATCCGAGAACATTAACCAAGACGTTAAAGCTTACCTTCGCCACGCCGATGACATGCATATCATT GGGATCGACCGTGGAGAACGTCATCTGTTATACTTGGTCGTAATCGACCTGCAAGGGAATATTAAGGAGCAATTTT CATTAAACGAGATTGTGAACGATTATAACGGTAACACGTACCATACGAACTACCACGATCTGTTGGATGTCCGTGA GGATGAACGTCTGAAGGCTCGTCAGTCATGGCAAACTATCGAAAACATTAAAGAGTTAAAAGAGGGTTATTTGTCC CAAGTAATCCATAAGATTACGCAGTTGATGGTGCGTTATCATGCCATTGTGGTTTTGGAGGACCTGTCAAAAGGGT TCATGCGCTCGCGCCAAAAGGTAGAAAAACAGGTTTATCAAAAGTTTGAGAAAATGCTGATCGACAAACTTAATTA CCTGGTAGATAAAAAGACGGATGTGAGCACTCCGGGGGGTCTGTTAAATGCTTATCAGCTGACTTGTAAATCAGAT TCCAGCCAGAAATTGGGCAAACAGAGTGGATTTCTTTTTTATATCCCCGCGTGGAATACCTCTAAGATTGACCCGG TAACGGGTTTCGTAAACTTGCTTGATACACATTCGCTGAACAGTAAGGAGAAGATCAAAGCTTTCTTCTCCAAATT TGATGCGATTCGCTACAACAAAGATAAGAAGTGGTTTGAGTTTAACCTTGACTACGATAAGTTTGGCAAAAAAGCG GAAGATACGCGCACCAAGTGGACATTGTGCACTCGTGGGATGCGCATCGACACTTTCCGCAACAAAGAAAAGAATA GCCAATGGGATAACCAAGAGGTGGATCTTACTACCGAAATGAAATCGTTACTGGAGCACTATTACATCGACATCCA TGGAAACCTGAAGGACGCGATCAGCACACAAACAGACAAAGCCTTCTTTACTGGCTTGCTTCACATCTTGAAGCTT ACGTTGCAGATGCGCAACTCTATTACGGGTACGGAAACTGATTATTTAGTATCTCCTGTTGCTGACGAAAACGGCA TTTTCTATGATTCGCGTTCTTGCGGAGATCAATTACCAGAGAATGCGGATGCTAACGGCGCCTACAACATTGCCCG TAAAGGTTTAATGTTAGTGGAACAAATTAAAGACGCCGAAGACCTTGACAACGTCAAGTTTGATATTAGTAACAAG GCGTGGCTTAATTTTGCACAGCAAAAACCATATAAGAATGGCTGA SEQ ID NO: 49 ART12_Optimized_2 ATGGCGAAGAATTTTGAAGACTTCAAGCGTCTTTACCCATTATCTAAAACATTACGTTTCGAAGCTAAACCAATCG GAGCGACCCTTGATAACATTGTCAAGTCCGGGCTTCTGGAGGAGGATGAGCACCGCGCTGCCTCGTATGTTAAGGT TAAGAAGCTGATTGATGAGTATCATAAGGTATTCATCGACCGTGTCCTTGATAACGGATGCTTGCCTCTGGACGAT AAAGGTGACAACAACTCCCTTGCTGAGTACTACGAGAGCTACGTGTCCAAGGCGCAAGATGAAGACGCCATTAAAA AATTCAAGGAGATCCAGCAAAACCTTCTGTCGATTATCGCCAAAAAGCTTACAGATGATAAAGCTTACGCCAACTT GTTTGGCAACAAACTGATTGAGAGCTATAAAGATAAAGCGGACAAGACGAAATTAATCGACAGCGACCTTATCCAG TTTATTAACACAGCCGAGTCGACCCAATTGGTCAGCATGTCCCAGGACGAGGCCAAGGAGTTGGTAAAGGAATTTT GGGGATTCACAACTTACTTTGAGGGTTTTTTCAAGAACCGTAAAAATATGTATACACCTGAAGAGAAATCTACTGG TATTGCGTACCGCCTGATCAATGAGAACTTACCAAAATTTATCGACAACATGGAGGCCTTTAAGAAGGCCATTGCC CGTCCAGAGATCCAGGCGAATATGGAAGAACTGTATTCCAATTTTAGTGAATATCTGAACGTGGAGTCCATCCAAG AGATGTTTTTATTGGACTACTACAACATGCTGCTTACCCAGAAACAAATCGATGTCTATAACGCGATCATTGGAGG TAAAACGGACGATGAGCACGATGTAAAGATTAAAGGGATCAATGAATACATCAACCTGTACAACCAACAACATAAA GACGATAAATTGCCTAAGTTAAAGGCCTTGTTTAAGCAGATTTTATCTGATCGTAATGCCATCAGTTGGCTGCCCG AAGAGTTTAATTCGGATCAGGAGGTATTGAACGCTATTAAAGATTGCTATGAACGCCTGGCTGAGAACGTCCTTGG GGATAAAGTGTTAAAATCACTGCTTGGGTCACTGGCAGATTATTCCCTTGATGGTATTTTCATCCGCAACGATTTG CAGCTTACAGACATCTCACAAAAAATGTTCGGTAATTGGGGTGTAATCCAAAACGCGATTATGCAGAATATTAAAC ATGTCGCACCGGCTCGTAAGCACAAGGAAAGTGAAGAAGACTACGAGAAGCGTATTGCCGGTATCTTTAAAAAAGC CGATTCGTTTTCGATTTCGTACATCAATGACTGCCTTAACGAAGCTGACCCCAACAACGCCTACTTTGTGGAAAAT TATTTTGCTACTTTCGGTGCCGTAAATACACCTACAATGCAACGCGAGAACTTATTTGCACTTGTGCAGAATGCAT ACACAGAGGTCGCTGCACTGTTGCATTCTGACTACCCGACAGTTAAGCACCTTGCCCAAGACAAGGCCAACGTATC GAAAATTAAGGCGCTGCTGGATGCTATCAAGTCACTGCAACATTTTGTGAAACCGTTACTTGGCAAAGGAGACGAG TCAGATAAGGACGAACGCTTCTACGGAGAACTTGCTTCGTTGTGGGCCGAATTAGACACGGTCACCCCCTTATACA ACATGATCCGTAACTACATGACACGCAAGCCGTATAGCCAGAAAAAGATTAAACTTAACTTTGAGAATCCTCAACT GCTGGGGGGATGGGATGCGAATAAAGAGAAGGATTATGCCACAATTATCCTGCGTCGTAATGGCCTTTATTACTTA GCTATTATGGATAAGGACTCACGCAAATTATTGGGTAAAGCCATGCCCTCTGATGGTGAGTGCTACGAGAAAATGG TCTACAAATTCTTCAAAGACGTAACTACTATGATCCCGAAATGCAGTACTCAGTTAAAGGACGTACAGGCTTATTT TAAAGTAAACACCGATGATTACGTCCTGAATTCCAAGGCGTTTAATCGTCCACTTACCATTACAAAAGAAGTATTC GATTTGAACAACGTATTGTACGGAAAGTACAAGAAGTTCCAGAAGGGGTATCTGACCGCTACAGGTGATAATGTAG GTTATACACACGCCGTGAACGTGTGGATCAAGTTTTGTATGGATTTTCTGGATTCATACGACTCCACTTGCATTTA TGATTTTAGCTCTCTTAAGCCAGAATCATATCTTTCCTTAGACAGTTTCTATCAGGATGTTAATCTTCTTTTATAC AAATTGTCCTTTACGGACGTTTCAGCGTCCTTTATTGACCAGCTTGTAGAGGAGGGCAAGATGTACCTTTTTCAGA TCTATAACAAAGACTTTTCGGAGTACTCTAAGGGGACACCCAACATGCATACGTTGTATTGGAAAGCCCTGTTCGA TGAACGTAATCTTGCGGACGTCGTATACAAGCTTAACGGTCAAGCGGAAATGTTTTATCGTAAGAAGTCCATTGAG AATACCCATCCAACCCACCCGGCAAATCATCCAATCCTTAATAAAAACAAGGATAATAAAAAAAAGGAGTCGCTGT TTGAGTATGACTTAATTAAGGACCGCCGCTACACGGTGGACAAGTTCATGTTCCACGTCCCAATTACAATGAATTT CAAGTCAAGTGGTTCTGAAAATATCAATCAAGACGTAAAAGCATACCTTCGTCATGCCGACGACATGCACATCATC GGCATTGACCGTGGTGAACGCCACTTGCTTTATCTGGTCGTCATCGACTTGCAAGGCAACATCAAAGAGCAATTCT CACTTAATGAGATTGTAAATGATTACAATGGAAACACATATCACACTAATTACCACGATCTTCTGGATGTCCGCGA AGACGAACGTTTGAAGGCACGTCAATCCTGGCAAACCATTGAAAATATTAAGGAACTGAAGGAGGGTTATTTATCT CAAGTAATCCACAAAATTACCCAACTGATGGTTCGTTATCACGCGATTGTAGTCTTGGAGGACCTGTCCAAGGGAT TTATGCGTAGTCGCCAAAAAGTGGAGAAGCAAGTTTATCAAAAGTTCGAAAAAATGTTAATTGACAAACTTAACTA CCTTGTCGATAAGAAGACCGACGTGTCCACCCCTGGCGGGTTACTGAACGCGTACCAGCTGACATGTAAGTCAGAC TCCTCTCAGAAACTTGGCAAGCAGTCAGGATTTTTGTTTTATATCCCTGCTTGGAACACCAGCAAGATCGATCCGG TTACCGGTTTTGTAAACCTTCTGGATACTCATAGTCTTAACTCGAAGGAGAAAATCAAGGCTTTTTTCTCCAAGTT CGATGCCATTCGTTATAACAAAGATAAAAAGTGGTTTGAGTTCAATTTGGACTACGATAAGTTTGGAAAAAAAGCC GAAGACACGCGCACCAAGTGGACGCTTTGTACGCGTGGAATGCGCATTGACACATTTCGTAATAAGGAAAAAAACT CACAATGGGACAATCAAGAAGTAGATTTAACGACAGAAATGAAAAGTCTTTTGGAGCATTACTATATTGATATTCA TGGGAATCTTAAGGATGCTATTTCCACTCAAACCGATAAAGCCTTTTTTACGGGGCTTTTACACATTTTAAAACTT ACCTTACAAATGCGCAACTCGATCACGGGGACCGAAACTGATTATTTGGTGTCTCCTGTTGCCGACGAAAACGGAA TCTTCTATGACTCTCGCTCTTGTGGGGATCAATTACCGGAAAATGCTGACGCAAATGGCGCGTACAATATTGCTCG CAAGGGGTTGATGTTGGTAGAGCAGATCAAGGACGCTGAGGATTTGGATAATGTGAAGTTTGACATCTCTAATAAA GCGTGGCTTAATTTCGCACAGCAGAAACCATACAAAAACGGATGA SEQ ID NO: 50 ART12_Optimized_3 ATGGCGAAGAACTTCGAGGACTTCAAGCGCTTATATCCTCTGTCCAAAACGCTTCGTTTTGAAGCTAAACCGATCG GTGCGACCTTGGATAACATTGTGAAATCTGGGCTGTTGGAGGAAGATGAGCACCGCGCAGCCTCGTACGTAAAAGT TAAGAAGCTTATTGATGAGTACCACAAAGTCTTTATTGACCGTGTGTTAGATAACGGCTGCTTGCCCTTAGATGAC AAAGGGGATAATAACTCGTTAGCAGAGTACTATGAATCGTATGTAAGTAAAGCACAGGACGAGGATGCAATTAAGA AATTCAAGGAAATCCAACAGAATTTATTATCCATTATTGCTAAAAAGTTAACCGATGACAAAGCTTACGCGAACTT GTTTGGCAACAAGCTTATTGAGAGTTATAAGGACAAGGCTGACAAAACGAAGCTGATCGACTCCGACCTTATCCAG TTTATCAATACAGCCGAGTCAACTCAGTTGGTGTCAATGTCACAAGATGAAGCAAAGGAACTTGTGAAAGAGTTCT GGGGATTTACAACTTATTTTGAGGGATTCTTTAAAAATCGTAAGAACATGTACACGCCCGAAGAAAAGTCGACGGG AATTGCGTATCGCCTGATTAATGAAAACCTGCCGAAGTTCATTGACAATATGGAGGCCTTCAAGAAGGCTATCGCA CGCCCCGAGATCCAAGCTAACATGGAAGAACTGTATTCGAATTTTTCAGAGTACTTGAACGTTGAAAGCATCCAAG AGATGTTCTTGCTTGATTATTACAATATGTTGTTAACTCAAAAACAGATTGATGTGTACAACGCAATCATTGGTGG CAAAACCGATGATGAACACGACGTGAAAATCAAAGGGATTAATGAGTACATTAACTTATATAACCAGCAACATAAG GACGATAAATTACCGAAATTGAAAGCTCTGTTTAAGCAGATCCTTAGTGATCGCAACGCTATCTCGTGGCTGCCAG AAGAGTTCAACAGCGATCAAGAAGTTTTAAATGCAATCAAAGACTGTTACGAACGTTTGGCTGAAAACGTTTTAGG AGACAAAGTTTTAAAGTCCCTTCTTGGGAGCTTGGCTGACTACTCATTAGACGGTATTTTTATCCGCAACGATCTT CAATTGACGGACATCTCACAGAAAATGTTTGGTAATTGGGGAGTAATCCAAAACGCAATTATGCAAAATATTAAGC ATGTGGCGCCTGCACGTAAGCATAAGGAGTCGGAAGAAGATTACGAAAAGCGCATTGCGGGGATCTTCAAGAAAGC TGACTCTTTTTCGATTTCTTATATTAATGATTGCTTGAATGAGGCCGATCCTAATAACGCCTACTTTGTAGAGAAC TATTTTGCGACTTTTGGAGCAGTGAATACACCGACCATGCAACGTGAAAACTTGTTTGCTCTGGTCCAAAATGCCT ATACTGAAGTAGCCGCACTTCTGCATTCCGATTATCCTACCGTAAAACACCTGGCACAGGATAAAGCCAATGTGAG TAAGATCAAGGCTCTTTTGGATGCCATTAAGTCTCTGCAGCATTTTGTAAAACCACTGCTGGGAAAAGGAGATGAG TCAGATAAAGACGAACGCTTTTACGGAGAATTAGCGTCGCTGTGGGCAGAACTGGACACAGTTACTCCTCTGTATA ATATGATCCGTAATTATATGACTCGCAAACCTTATTCACAAAAGAAGATTAAGCTGAATTTCGAGAACCCTCAATT GTTAGGAGGATGGGACGCTAACAAGGAAAAAGATTATGCTACCATTATCCTTCGTCGCAATGGATTATATTATCTT GCTATTATGGACAAAGACTCGCGCAAATTGTTAGGGAAAGCCATGCCCTCCGATGGCGAATGCTACGAAAAGATGG TGTATAAATTCTTTAAGGATGTTACGACCATGATTCCCAAATGTAGCACACAATTAAAAGACGTACAAGCATACTT CAAGGTTAACACTGACGATTATGTTCTTAACTCGAAAGCGTTCAACCGCCCCCTGACCATCACCAAAGAAGTATTT GATTTGAATAACGTTTTGTATGGGAAGTACAAGAAATTCCAGAAAGGATACTTAACTGCTACGGGTGACAATGTTG GGTATACGCATGCAGTAAACGTTTGGATTAAGTTCTGTATGGACTTCTTAGACTCCTATGATTCGACATGTATCTA TGACTTCAGCAGCCTGAAGCCAGAATCATATCTGTCTCTGGATTCTTTCTATCAAGACGTAAATCTTCTGCTGTAC AAGTTGTCCTTCACTGACGTCTCGGCGAGCTTCATTGATCAGTTGGTGGAGGAAGGCAAGATGTACCTTTTTCAGA TTTACAACAAAGACTTCAGTGAGTATAGCAAAGGGACCCCCAATATGCATACACTTTATTGGAAAGCACTGTTCGA CGAGCGTAATCTGGCCGACGTTGTCTACAAGTTAAACGGTCAGGCTGAAATGTTTTATCGCAAGAAAAGTATTGAA AATACACATCCCACCCATCCGGCGAACCATCCAATTCTTAATAAAAACAAGGATAACAAAAAAAAGGAGTCGCTGT TTGAATACGACCTGATTAAAGATCGTCGTTATACCGTCGACAAATTTATGTTTCACGTTCCTATTACTATGAATTT TAAATCAAGCGGTAGCGAAAACATCAATCAGGATGTCAAAGCGTATCTTCGCCACGCGGATGACATGCACATCATC GGTATCGACCGTGGGGAGCGTCACCTTCTTTACTTAGTCGTCATCGATCTGCAAGGCAACATCAAAGAGCAATTTA GCTTGAATGAGATTGTTAATGATTATAATGGTAACACTTATCATACTAATTATCATGACTTGTTAGATGTGCGCGA GGATGAGCGTTTAAAAGCGCGCCAATCTTGGCAAACCATCGAGAACATCAAAGAATTGAAGGAAGGTTACTTATCT CAAGTTATTCACAAGATTACACAGTTAATGGTACGTTACCATGCGATTGTGGTTTTAGAGGACTTATCTAAAGGGT TTATGCGTTCGCGCCAAAAAGTGGAGAAGCAAGTCTACCAAAAGTTCGAGAAGATGTTGATCGATAAATTGAATTA TCTTGTTGATAAAAAGACTGATGTGAGTACGCCTGGTGGGTTATTGAATGCCTACCAGTTAACTTGCAAGAGCGAC TCTTCGCAAAAGCTTGGGAAACAGAGCGGGTTCCTTTTCTATATTCCAGCATGGAACACTTCAAAGATTGACCCTG TAACGGGCTTTGTAAACTTGTTAGATACACATAGTCTGAATAGTAAAGAGAAGATTAAAGCATTCTTCTCAAAGTT CGATGCAATTCGCTACAACAAGGACAAGAAATGGTTCGAATTTAACTTGGATTATGACAAGTTTGGGAAGAAAGCA GAGGACACTCGTACGAAGTGGACTCTTTGCACACGTGGGATGCGCATCGACACTTTTCGCAACAAGGAAAAAAACT CGCAGTGGGATAATCAGGAAGTGGACCTGACTACCGAAATGAAAAGCTTATTAGAACATTACTACATTGATATTCA CGGTAATCTGAAAGATGCAATCTCAACCCAAACCGACAAAGCCTTCTTCACAGGGTTGCTTCATATCTTGAAACTT ACCCTTCAAATGCGTAACTCGATCACAGGGACTGAGACGGACTATTTAGTCTCACCCGTGGCAGATGAGAATGGGA TCTTTTACGATTCGCGCTCCTGTGGAGATCAACTTCCCGAGAACGCTGACGCGAACGGCGCTTATAATATTGCACG TAAAGGACTGATGTTGGTGGAACAGATCAAGGATGCTGAGGATTTGGATAATGTCAAATTTGACATCAGTAACAAA GCGTGGTTAAACTTTGCCCAGCAAAAACCCTATAAGAACGGTTGA SEQ ID NO: 51 ART13_WT ATGGCTAAGAATTTTGAAGATTTTAAGAGACTTTATTCTCTTTCAAAGACTTTGCGCTTTGAAGCGAAGC CTATTGGTGCCACTTTGGATAATATAGTCAAAAGTGGTTTGCTGGATGAAGATGAACACAGAGCTGCAAG CTATGTGAAGGTGAAGAAATTGATTGATGAATATCACAAGGTATTTATTGATAGAGTGTTGGATGATGGC TGTTTGCCTTTGGAAAATAAAGGTAATAATAATTCATTGGCAGAATATTATGAGAGCTATGTATCTAGAG CGCAAGATGAGGATGCAAAAAAGAAGTTTAAGGAAATACAGCAAAATCTTCGTTCTGTCATTGCGAAAAA ACTAACCGAAGATAAGGCTTATGCTAATTTGTTTGGTAACAAACTTATAGAGTCGTATAAGGACAAAGAG GATAAGAAAAAGATAATTGATTCAGATTTGATTCAATTCATCAATACCGCAGAATCAACTCAACTTGATT CTATGTCACAAGATGAGGCCAAAGAACTTGTGAAAGAATTCTGGGGCTTTGTTACTTATTTTTACGGCTT CTTTGATAATCGTAAAAATATGTATACGGCAGAAGAGAAGTCAACTGGTATTGCTTATCGACTAGTTAAT GAAAACCTTCCAAAATTCATTGATAATATAGAGGCTTTTAATAGAGCTATAACCAGACCAGAGATACAGG AAAATATGGGAGTCTTGTATTCAGATTTTTCCGAATACTTAAATGTAGAAAGTATTCAGGAGATGTTCCA GCTTGACTATTATAATATGCTCCTTACTCAAAAGCAGATTGATGTCTATAATGCTATAATTGGAGGAAAA ACCGATGATGAGCACGATGTTAAGATTAAAGGTATCAATGAGTATATCAATCTCTACAATCAGCAGCATA AAGATGACAAGTTACCAAAACTTAAGGCTTTGTTTAAGCAGATTCTTAGTGATAGAAATGCAATATCTTG GTTGCCAGAAGAGTTCAATAGTGATCAGGAAGTCTTGAATGCAATCAAGGATTGCTATGAGCGATTGGCT GAAAATGTTTTGGGTGATAAGGTTCTCAAGTCTTTGCTTGGTTCTTTGGCAGATTATTCTCTTGATGGGA TATTTATCCGTAATGACTTACAGTTGACTGATATTTCTCAGAAAATGTTTGGAAATTGGGGCGTGATTCA GAATGCTATCATGCAGAATATAAAGCGTGTCGCTCCTGCCAGAAAGCATAAGGAGTCTGAGGAAGATTAC GAAAAAAGAATTGCTGGTATATTCAAAAAGGCAGATAGCTTTAGTATCAGTTATATAAATGATTGTTTGA ACGAAGCAGATCCTAATAATGCCTACTTTGTAGAGAACTATTTTGCAACATTTGGAGCGGTAAATACTCC AACAATGCAGCGTGAGAATCTGTTTGCGCTTGTTCAAAATGCGTATACAGAAGTTGCTGCATTACTTCAT TCTGATTATCCTACAGTAAAGCATCTGGCACAAGACAAGGCTAATGTTTCTAAAATCAAAGCACTGTTGG ATGCAATAAAGTCTTTGCAGCATTTCGTGAAGCCTCTGTTGGGCAAGGGTGATGAAAGTGATAAAGATGA ACGTTTCTATGGTGAACTAGCTTCGTTGTGGGCAGAACTTGATACAGTGACACCGCTGTATAATATGATT CGTAATTATATGACTCGTAAACCATATTCTCAAAAGAAGATCAAACTTAACTTTGAGAATCCTCAATTGC TTGGTGGTTGGGATGCTAATAAGGAGAAAGACTATGCTACCATTATCTTACGTCGTAATGGGTTGTATTA TCTTGCTATTATGGACAAAGACTCAAGGAAGTTATTGGGTAAGGCAATGCCGTCAGATGGGGAGTGCTAT GAGAAAATGGTATATAAGTTCTTCAAAGACGTGACAACGATGATACCAAAGTGTAGTACACAATTAAAAG ATGTACAAGCTTATTTTAAGGTTAATACAGATGATTACGTCTTAAATAGCAAGGCGTTTAACAAGCCATT GACGATAACAAAGGAAGTCTTTGATTTGAACAATGTATTGTATGGTAAGTATAAGAAATTCCAAAAGGGA TACTTGACTGCTACTGGTGATAATGTAGGTTATACCCATGCTGTAAACGTATGGATAAAATTCTGTATGG ATTTTTTGAACAGCTATGATAGCACTTGCATATATGATTTCTCTTCTTTGAAACCAGAGTCATATTTGTC GCTTGATGCATTCTATCAAGATGCTAATTTGTTGTTGTATAAATTGTCTTTTGCAAGAGCATCTGTATCG TATATCAACCAGCTTGTTGAGGAGGGGAAGATGTATCTGTTCCAAATCTACAATAAGGATTTCTCTGAGT ATAGCAAAGGCACTCCAAATATGCATACTCTTTATTGGAAAGCATTGTTTGATGAACGTAATCTGGCAGA TGTAGTTTACAAGCTTAACGGACAGGCAGAGATGTTCTATCGTAAGAAAAGTATAGAAAATACTCATCCA ACTCATCCTGCTAATCATCCTATTCTTAACAAGAATAAGGATAACAAGAAAAAAGAAAGCTTGTTTGACT ATGATCTTATAAAAGATCGTCGCTACACTGTTGATAAATTTATGTTCCATGTGCCAATCACAATGAATTT CAAGAGCGTTGGCTCAGAGAATATCAATCAAGATGTGAAGGCGTATTTGCGTCATGCAGATGATATGCAT ATTATTGGTATTGATCGTGGTGAACGTCATTTGCTTTATCTGGTTGTTATAGATTTGCAGGGAAATATCA AGGAACAGTACTCGCTTAATGAAATAGTGAATGAGTATAATGGTAATACCTATCATACCAATTATCACGA TTTGTTGGATGTTCGTGAAGAAGAACGACTTAAAGCTCGTCAAAGTTGGCAGACCATCGAAAATATTAAA GAGCTGAAAGAGGGCTATTTGTCTCAGGTTATCCACAAGATTACACAGCTCATGGTTAGATATCATGCCA TTGTTGTTTTGGAAGATCTGAGCAAGGGATTTATGCGTAGTCGTCAAAAGGTAGAAAAGCAAGTATATCA GAAGTTTGAAAAAATGTTGATAGATAAGCTTAACTATTTGGTAGACAAAAAAACTGATGTTTCTACTCCT GGAGGCTTGCTGAATGCATACCAACTTACCTGTAAGTCTGATAGTTCTCAAAAGTTAGGAAAACAGAGCG GATTCCTGTTCTATATCCCTGCATGGAATACATCTAAGATAGACCCAGTTACAGGATTTGTCAACTTGTT GGATACTCATTCTTTAAATTCTAAAGAGAAAATCAAAGCTTTCTTCTCTAAGTTTGATGCTATCCGTTAT AATAAGGATAAGAAATGGTTTGAGTTTAATCTCGACTATGACAAGTTTGGTAAAAAAGCGGAAGATACAA GGACTAAGTGGACTTTATGCACCAGAGGAATGCGTATTGATACTTTCAGAAATAAAGAAAAGAACTCGCA GTGGGATAATCAGGAAGTTGACTTGACAACAGAGATGAAATCTTTATTGGAGCATTATTATATCGACATT CATGGTAATCTCAAGGATGCTATCAGTGCGCAAACAGACAAGGCCTTCTTTACGGGATTGCTACACATTT TGAAGTTGACTTTGCAGATGCGTAATAGTATCACTGGAACAGAAACTGATTATCTGGTATCTCCTGTTGC CGATGAGAATGGAATATTCTACGATAGCCGTTCTTGTGGTAATCAACTTCCTGAGAATGCGGATGCTAAT GGTGCTTATAACATCGCTCGCAAGGGACTGATGCTGATTGAGCAAATCAAGAATGCAGAGGATTTGAATA ACGTCAAGTTTGATATATCCAATAAGGCTTGGCTCAATTTTGCACAACAAAAGCCATATAAGAATGGATG A SEQ ID NO: 52 ART13_Optimized1 ATGGCGAAGAATTTCGAGGACTTCAAACGCCTGTATTCTTTGTCTAAGACACTTCGTTTTGAGGCAAAGCCGATCG GAGCGACCCTGGATAACATCGTAAAGTCTGGCTTACTTGATGAAGATGAGCATCGCGCGGCGAGCTATGTTAAGGT AAAAAAGTTAATCGACGAGTACCATAAAGTTTTCATTGATCGTGTTTTAGATGACGGATGCCTTCCTCTTGAAAAC AAAGGTAATAATAACAGCTTGGCGGAATATTATGAGTCTTATGTCTCTCGTGCGCAAGATGAAGATGCGAAGAAGA AATTTAAGGAGATCCAACAAAATCTTCGCAGCGTAATTGCTAAAAAACTGACTGAGGATAAGGCCTACGCGAACCT GTTTGGCAACAAGCTGATTGAATCTTATAAGGATAAAGAAGACAAGAAGAAAATCATTGACTCAGATTTAATCCAG TTTATCAATACCGCTGAGAGTACGCAATTAGACTCTATGAGCCAAGACGAGGCCAAAGAACTTGTTAAGGAGTTCT GGGGGTTCGTCACTTATTTCTATGGTTTCTTCGACAATCGTAAAAATATGTACACTGCTGAAGAGAAGAGTACGGG GATCGCTTACCGCCTGGTAAATGAAAATTTGCCCAAGTTTATTGACAACATCGAAGCTTTTAATCGTGCGATCACA CGTCCGGAGATCCAGGAGAACATGGGGGTGCTTTATTCCGACTTCAGTGAATATTTGAATGTGGAATCGATTCAAG AAATGTTCCAGCTTGATTACTATAATATGTTGTTAACTCAGAAGCAAATCGATGTGTATAACGCAATCATCGGTGG AAAGACTGACGACGAACACGATGTAAAGATCAAAGGGATTAATGAATATATTAACTTATATAATCAACAACATAAA GACGATAAATTGCCAAAGTTGAAGGCGTTGTTTAAACAAATTCTTTCCGACCGCAACGCGATCTCGTGGCTGCCCG AAGAGTTCAACTCTGACCAAGAGGTTTTAAATGCCATTAAAGACTGTTATGAGCGCCTTGCTGAGAACGTCTTAGG CGACAAGGTATTGAAGAGCCTGCTTGGTTCCCTGGCTGATTATTCATTAGATGGAATTTTTATTCGTAACGATTTG CAGCTTACCGATATCTCTCAGAAGATGTTCGGCAATTGGGGGGTCATTCAAAATGCGATCATGCAAAACATTAAAC GCGTCGCCCCGGCTCGTAAACATAAGGAAAGCGAGGAGGACTATGAGAAACGTATTGCCGGAATCTTCAAGAAAGC TGACTCGTTCAGTATCTCCTACATCAACGATTGTTTGAATGAAGCTGACCCCAATAATGCATACTTTGTAGAGAAT TACTTCGCGACATTCGGGGCTGTAAACACACCCACAATGCAGCGCGAGAATTTGTTCGCGTTGGTACAGAATGCGT ACACCGAAGTCGCTGCATTATTGCACAGCGACTACCCCACGGTTAAGCACTTGGCGCAAGACAAAGCCAACGTCTC CAAGATCAAGGCGCTTCTTGACGCTATTAAGTCTTTACAGCATTTTGTTAAGCCGTTACTGGGCAAAGGTGATGAG TCGGACAAGGATGAACGTTTCTACGGCGAGTTAGCTTCATTATGGGCGGAACTGGACACCGTTACTCCCTTATATA ATATGATCCGCAATTACATGACGCGCAAGCCGTACTCACAAAAGAAGATTAAGTTAAACTTTGAAAATCCTCAACT TCTTGGAGGTTGGGACGCTAACAAAGAGAAGGACTACGCCACGATCATCCTGCGTCGTAACGGGTTATACTATCTT GCAATCATGGATAAAGATAGTCGCAAGTTGCTTGGGAAGGCTATGCCATCGGACGGCGAATGTTACGAGAAAATGG TGTATAAATTCTTTAAGGACGTGACAACAATGATCCCGAAGTGCTCGACCCAGCTTAAAGACGTCCAAGCTTACTT TAAGGTCAACACAGATGACTATGTTCTGAACAGCAAGGCTTTTAACAAGCCACTGACAATCACCAAAGAGGTATTC GATCTGAATAATGTCTTATACGGCAAGTACAAAAAATTCCAAAAGGGATACTTGACGGCGACTGGTGACAACGTAG GGTACACCCACGCCGTTAATGTGTGGATCAAGTTTTGTATGGACTTTTTGAACAGCTACGACTCTACCTGCATTTA CGACTTTAGTAGCCTGAAACCCGAGAGTTACTTGTCATTAGATGCGTTCTACCAGGACGCCAATCTGTTGTTGTAC AAATTGAGCTTTGCGCGCGCTTCAGTCTCCTACATCAACCAATTGGTTGAGGAGGGCAAGATGTACTTGTTCCAAA TTTATAACAAGGACTTTTCTGAGTATTCCAAAGGAACACCTAACATGCACACTTTGTATTGGAAAGCACTGTTCGA TGAACGTAATTTGGCGGATGTTGTGTACAAATTAAACGGCCAAGCTGAGATGTTCTATCGTAAGAAATCTATTGAA AACACCCATCCAACACATCCGGCGAACCATCCGATTTTAAATAAAAACAAGGACAATAAAAAAAAAGAGAGTTTAT TTGACTATGATTTGATCAAGGATCGCCGTTACACAGTTGACAAGTTTATGTTCCATGTCCCAATCACAATGAACTT CAAGTCCGTGGGGTCCGAAAATATTAATCAAGATGTAAAGGCGTACTTGCGCCACGCAGACGATATGCACATTATT GGAATCGATCGTGGAGAGCGCCACTTGCTGTACTTAGTCGTAATCGATCTGCAGGGCAATATTAAAGAACAGTACA GTCTTAACGAGATCGTGAACGAGTACAACGGAAATACGTATCACACCAACTACCATGACCTGTTAGATGTACGCGA AGAAGAGCGCTTGAAAGCCCGCCAGTCCTGGCAAACCATTGAGAATATTAAGGAACTTAAAGAGGGGTATCTTTCG CAGGTGATTCACAAAATCACGCAGTTAATGGTTCGTTATCATGCCATCGTGGTTCTGGAAGATCTTAGCAAAGGGT TCATGCGCAGCCGCCAGAAAGTGGAAAAGCAGGTCTACCAAAAATTCGAGAAGATGTTAATCGACAAATTAAATTA CTTGGTTGACAAAAAAACAGATGTATCAACACCTGGCGGGCTGCTTAATGCATATCAGCTTACTTGTAAGAGTGAT TCGTCCCAAAAACTGGGAAAGCAGTCTGGGTTTCTGTTTTACATTCCAGCTTGGAACACCAGTAAGATTGACCCAG TAACAGGCTTCGTGAACTTACTGGACACCCATAGTTTGAACTCGAAGGAGAAAATTAAGGCATTTTTCTCGAAATT CGATGCTATTCGTTATAATAAAGACAAAAAGTGGTTCGAGTTCAATCTGGACTATGATAAGTTTGGGAAGAAAGCT GAGGACACTCGCACTAAATGGACGTTATGTACGCGTGGCATGCGCATCGATACGTTTCGCAACAAGGAGAAAAATT CTCAGTGGGACAATCAGGAAGTGGACTTGACCACGGAAATGAAGAGTCTGTTAGAGCATTATTATATTGACATTCA TGGAAACCTTAAGGATGCTATCTCAGCTCAAACAGACAAGGCATTTTTCACGGGCCTTCTGCACATCTTGAAGCTG ACGCTTCAAATGCGCAATTCGATTACGGGAACTGAAACCGACTATTTGGTGAGTCCGGTCGCCGACGAAAACGGAA TTTTTTACGATAGTCGTTCTTGTGGAAATCAGCTGCCGGAGAATGCAGACGCGAATGGGGCCTATAATATCGCACG TAAAGGACTGATGTTGATCGAGCAAATTAAGAACGCGGAGGACTTGAACAATGTAAAATTCGACATCTCGAACAAG GCCTGGCTGAACTTTGCACAGCAAAAACCATATAAGAATGGCTGA SEQ ID NO: 53 ART13_Optimized2 ATGGCGAAGAATTTCGAAGACTTCAAGCGTCTTTACTCACTGTCAAAAACTCTTCGTTTCGAAGCTAAACCGATCG GCGCCACCTTGGACAATATCGTAAAGTCCGGCCTTTTAGATGAGGACGAACATCGTGCAGCTAGCTATGTCAAAGT AAAAAAGCTGATCGACGAATACCACAAGGTGTTCATTGACCGTGTGCTTGATGATGGTTGTCTGCCACTGGAGAAT AAAGGTAATAATAACTCGTTAGCCGAGTATTATGAGAGCTATGTGAGCCGTGCCCAAGATGAAGACGCTAAAAAGA AGTTCAAAGAGATCCAACAGAACCTGCGCAGTGTAATCGCAAAGAAACTTACAGAAGATAAAGCCTACGCGAATTT ATTTGGAAATAAGCTTATCGAATCCTATAAAGATAAGGAAGACAAGAAAAAGATTATCGATAGCGACCTTATCCAG TTCATCAACACAGCCGAAAGCACCCAGTTAGACTCTATGTCGCAAGACGAGGCGAAAGAACTGGTCAAAGAATTCT GGGGATTCGTTACGTATTTCTACGGTTTTTTCGATAACCGCAAAAATATGTATACGGCTGAGGAGAAAAGTACGGG TATCGCCTACCGCCTGGTGAATGAGAATTTGCCTAAGTTCATCGATAATATTGAAGCGTTCAACCGTGCGATTACG CGTCCGGAAATTCAAGAAAACATGGGCGTCCTGTATAGCGACTTCAGCGAATATCTTAACGTAGAATCAATCCAAG AGATGTTTCAACTTGATTATTATAATATGCTGTTAACACAGAAACAGATCGACGTTTACAATGCTATTATTGGAGG TAAAACGGACGACGAACACGACGTTAAAATTAAGGGCATTAATGAGTACATTAACTTATACAACCAGCAACATAAA GATGATAAGCTGCCAAAACTGAAAGCATTGTTCAAACAGATTTTGTCTGACCGTAATGCAATCAGTTGGCTTCCAG AGGAGTTCAATTCCGATCAAGAGGTTCTTAACGCTATTAAGGATTGTTATGAGCGCCTGGCAGAAAACGTACTTGG GGATAAAGTCTTGAAGAGTCTTTTAGGCTCGCTGGCCGACTATTCCCTTGACGGTATTTTCATTCGCAACGACTTG CAGTTGACTGATATTTCTCAGAAAATGTTCGGAAATTGGGGGGTCATTCAAAACGCGATCATGCAAAATATTAAGC GCGTCGCCCCGGCACGCAAGCACAAAGAGAGCGAAGAAGACTACGAGAAACGCATTGCCGGGATCTTTAAGAAGGC CGACTCATTTTCTATTTCTTATATTAATGATTGTCTTAATGAGGCGGATCCAAACAATGCGTACTTCGTTGAGAAC TATTTTGCTACATTTGGCGCTGTCAACACCCCTACGATGCAGCGCGAGAATCTGTTTGCTTTAGTACAAAACGCAT ATACCGAGGTTGCAGCCCTTTTGCATTCCGACTATCCTACGGTGAAACATTTAGCACAAGACAAAGCTAATGTCTC TAAGATCAAGGCGTTGTTGGACGCGATTAAGTCCCTGCAACACTTTGTAAAACCATTGCTGGGTAAGGGTGACGAA TCAGATAAAGACGAGCGCTTTTACGGGGAGCTGGCTTCGTTATGGGCAGAACTGGATACCGTGACTCCCTTATATA ACATGATCCGCAACTACATGACACGTAAACCATATTCACAGAAAAAGATTAAGCTGAACTTTGAGAACCCACAGCT GTTGGGCGGGTGGGACGCGAATAAGGAAAAAGATTATGCCACAATCATCTTACGCCGTAACGGGTTGTACTACCTT GCAATCATGGATAAGGACTCACGCAAATTATTAGGCAAGGCGATGCCTAGTGACGGCGAATGTTACGAAAAGATGG TTTATAAATTTTTTAAGGATGTTACAACCATGATCCCAAAGTGCTCCACGCAGTTAAAAGACGTTCAGGCGTACTT TAAGGTAAACACGGATGACTATGTACTGAATTCAAAGGCTTTCAACAAGCCCCTGACCATCACAAAAGAGGTTTTT GATCTTAACAACGTGCTTTACGGTAAATACAAAAAATTCCAGAAGGGTTACTTGACGGCCACTGGTGACAACGTTG GTTATACCCATGCCGTCAACGTATGGATCAAGTTTTGTATGGACTTCTTAAATTCTTACGACTCGACATGCATTTA TGATTTTTCCAGTCTGAAGCCGGAGAGTTACCTTAGCCTGGATGCCTTTTACCAGGACGCCAATTTATTGCTTTAT AAGCTGTCTTTCGCGCGCGCAAGCGTGTCGTACATTAACCAACTTGTGGAGGAGGGGAAGATGTACTTGTTTCAGA TCTATAATAAGGATTTTTCTGAGTATTCGAAGGGTACCCCTAATATGCATACACTTTACTGGAAAGCTCTTTTTGA CGAGCGTAACCTTGCCGACGTCGTGTACAAGCTGAACGGGCAGGCGGAAATGTTTTATCGTAAGAAATCGATCGAA AATACTCACCCTACTCACCCAGCCAACCATCCGATCTTGAATAAAAATAAGGACAACAAGAAGAAGGAGAGTCTGT TTGATTACGACCTGATTAAAGATCGCCGTTACACCGTAGATAAATTTATGTTCCATGTACCGATTACTATGAACTT CAAGAGCGTAGGAAGTGAAAATATTAACCAGGACGTAAAAGCATACTTGCGCCATGCCGATGATATGCACATCATC GGTATCGACCGTGGAGAGCGCCATTTACTTTATTTGGTAGTGATCGATTTGCAAGGCAACATCAAAGAACAGTACT CGTTAAACGAGATCGTGAACGAATACAACGGAAACACGTACCATACTAATTACCACGACCTGTTAGATGTCCGCGA AGAGGAGCGCCTTAAGGCGCGCCAGTCGTGGCAAACTATCGAGAATATTAAAGAGTTAAAGGAAGGGTATCTTTCA CAAGTCATCCATAAGATTACTCAATTAATGGTCCGCTACCATGCCATTGTAGTCTTGGAGGACCTGAGCAAGGGGT TTATGCGCTCACGTCAGAAGGTTGAAAAACAAGTCTACCAGAAATTTGAAAAAATGCTGATTGATAAACTGAATTA CCTGGTTGATAAAAAGACGGATGTCAGTACCCCTGGCGGTCTTCTGAATGCCTATCAATTAACATGCAAGTCAGAC TCTTCGCAGAAGCTGGGGAAACAATCAGGGTTTTTATTTTACATTCCAGCGTGGAACACAAGCAAGATTGATCCTG TCACCGGTTTTGTCAACCTTTTGGACACACATAGTCTGAACTCGAAAGAAAAAATCAAGGCATTTTTCAGTAAGTT CGATGCAATCCGTTACAACAAAGATAAGAAGTGGTTCGAGTTCAATCTTGATTACGACAAGTTTGGCAAGAAGGCT GAGGATACGCGTACGAAGTGGACGCTGTGTACCCGTGGGATGCGCATTGACACATTCCGTAATAAAGAGAAAAATA GCCAATGGGACAACCAGGAGGTGGACCTTACCACCGAGATGAAGTCCCTGTTGGAACATTACTACATCGACATCCA TGGTAACCTTAAAGACGCGATTAGCGCGCAAACCGATAAGGCCTTTTTCACAGGCCTGCTGCATATCTTGAAGTTA ACTTTGCAAATGCGCAATTCCATTACAGGGACGGAAACTGATTACCTTGTTAGCCCCGTCGCTGATGAAAATGGCA TCTTCTACGACTCGCGTAGTTGCGGAAATCAGTTACCGGAGAACGCGGATGCAAACGGGGCATATAATATTGCCCG TAAGGGACTTATGTTGATCGAGCAAATCAAAAACGCAGAGGATCTTAATAACGTTAAATTTGATATTTCCAATAAG GCATGGCTTAACTTCGCACAGCAGAAGCCGTACAAAAACGGTTGA SEQ ID NO: 54 ART13_Optimized3 ATGGCTAAGAATTTTGAAGATTTCAAGCGCCTTTACTCGCTGTCGAAAACGCTTCGTTTCGAAGCAAAACCAATCG GGGCTACGTTGGATAACATCGTTAAGAGTGGCTTGTTGGATGAGGACGAACACCGTGCCGCGTCGTACGTTAAAGT GAAAAAGTTGATTGACGAGTACCATAAAGTGTTTATCGACCGTGTATTGGACGACGGCTGCCTTCCACTGGAGAAT AAGGGTAACAATAATTCCCTGGCAGAATATTATGAGAGTTACGTTTCTCGCGCGCAAGACGAAGATGCTAAAAAAA AGTTTAAAGAGATTCAGCAAAATTTACGCTCGGTCATCGCTAAAAAATTAACGGAAGACAAGGCTTACGCAAATTT ATTCGGAAACAAGTTAATTGAGTCGTACAAGGACAAAGAGGACAAGAAAAAAATTATTGATTCCGATTTAATCCAG TTCATCAATACGGCTGAGAGTACACAACTTGATTCAATGTCCCAAGACGAAGCGAAGGAACTGGTCAAAGAATTCT GGGGTTTTGTTACGTATTTTTACGGATTTTTCGATAATCGTAAGAACATGTACACCGCAGAGGAGAAGTCAACTGG AATTGCATATCGTTTAGTGAACGAGAACCTGCCGAAATTTATTGACAATATCGAAGCTTTTAACCGCGCTATTACA CGTCCTGAGATTCAGGAGAACATGGGGGTTTTGTACTCTGATTTCTCCGAATACCTTAACGTCGAAAGTATCCAGG AGATGTTTCAGCTGGACTACTATAATATGCTTCTTACGCAGAAACAGATCGACGTGTATAATGCGATTATTGGCGG CAAAACAGACGATGAACACGACGTAAAAATCAAGGGTATCAACGAGTATATCAATCTTTATAATCAACAGCATAAA GACGATAAACTGCCAAAGCTGAAAGCGTTGTTCAAACAAATTCTTTCTGATCGTAATGCCATTTCCTGGCTTCCAG AAGAGTTCAACAGCGACCAAGAGGTGTTGAACGCAATCAAGGACTGTTATGAACGTTTGGCGGAAAATGTATTAGG AGACAAGGTCCTTAAGTCTTTGTTGGGTTCGTTGGCGGATTATTCATTAGATGGAATTTTTATCCGCAATGACCTT CAACTTACCGATATCAGCCAAAAGATGTTCGGGAACTGGGGGGTCATTCAGAACGCAATTATGCAGAATATTAAGC GCGTGGCCCCGGCTCGTAAGCACAAGGAATCTGAAGAAGACTATGAGAAACGTATCGCAGGCATCTTCAAGAAAGC AGATAGCTTCTCTATTTCATACATTAATGATTGCTTAAATGAGGCTGACCCTAACAACGCATACTTCGTCGAAAAT TACTTTGCTACTTTTGGCGCAGTGAACACTCCCACTATGCAGCGCGAGAATCTTTTTGCCCTTGTGCAAAATGCAT ACACGGAGGTTGCTGCATTGTTGCACTCTGATTACCCAACTGTAAAGCATTTAGCGCAGGACAAAGCCAATGTATC TAAGATTAAGGCTTTATTAGATGCGATTAAGTCCTTGCAGCATTTTGTGAAACCTCTGCTTGGCAAAGGTGACGAG TCTGACAAGGACGAACGTTTTTACGGTGAGCTGGCTAGCTTATGGGCAGAGCTGGACACAGTCACCCCGCTTTACA ATATGATCCGCAACTACATGACACGCAAGCCCTACTCGCAGAAAAAGATTAAGTTAAACTTTGAAAATCCGCAGTT GCTTGGTGGGTGGGACGCAAATAAAGAGAAGGACTATGCTACGATTATCCTTCGTCGCAACGGTCTGTACTACTTA GCGATCATGGACAAGGATTCGCGCAAGTTGCTTGGGAAAGCTATGCCCTCGGATGGTGAATGTTATGAGAAGATGG TTTATAAATTCTTTAAGGATGTGACTACTATGATCCCTAAATGTTCGACCCAGTTGAAAGACGTCCAGGCTTATTT TAAGGTCAATACTGATGACTACGTCTTAAACAGCAAAGCCTTCAACAAGCCATTAACGATTACCAAAGAGGTGTTC GACCTGAATAACGTCCTGTATGGGAAATACAAGAAATTTCAGAAAGGGTACCTTACTGCGACCGGAGACAATGTGG GCTACACGCATGCTGTCAATGTCTGGATTAAGTTTTGTATGGATTTCTTAAACAGCTATGACTCAACATGCATTTA TGATTTTTCCAGTTTAAAACCAGAATCATATCTGTCTTTAGATGCTTTCTATCAGGATGCTAATCTGTTGTTATAC AAACTTAGTTTCGCACGTGCTAGCGTCAGCTACATCAACCAATTAGTCGAGGAAGGAAAGATGTACTTGTTCCAAA TTTACAACAAAGATTTTAGTGAATACTCCAAGGGCACGCCAAACATGCACACACTGTACTGGAAAGCACTGTTTGA TGAGCGTAATCTGGCAGATGTGGTATACAAATTGAATGGCCAAGCCGAAATGTTCTACCGCAAAAAGTCGATTGAG AACACTCACCCAACCCATCCCGCGAACCACCCAATTTTGAACAAAAACAAGGATAACAAGAAGAAGGAAAGTTTGT TCGACTATGACCTGATTAAGGACCGCCGTTACACGGTGGATAAATTCATGTTTCATGTCCCCATCACGATGAACTT TAAGTCGGTCGGGTCAGAAAATATTAATCAGGATGTTAAGGCCTATCTTCGCCACGCTGACGACATGCACATCATT GGAATTGACCGTGGGGAACGCCATTTGTTGTATCTTGTTGTGATCGATCTGCAAGGGAACATTAAAGAGCAATATT CGCTTAATGAGATCGTCAACGAGTACAATGGAAACACGTACCATACGAACTATCACGACCTTCTGGATGTGCGCGA GGAGGAACGCCTTAAAGCACGCCAAAGTTGGCAGACGATCGAGAACATTAAGGAACTTAAAGAGGGCTACCTTTCG CAGGTAATCCATAAAATTACGCAATTAATGGTGCGTTACCATGCTATCGTCGTGTTGGAGGACTTATCCAAGGGGT TTATGCGCTCTCGTCAAAAAGTTGAGAAACAAGTTTATCAGAAATTTGAGAAAATGCTTATTGATAAACTGAACTA CCTGGTGGACAAGAAGACAGATGTTTCCACGCCTGGGGGTCTTTTGAACGCGTATCAATTAACCTGTAAGTCCGAC TCTTCTCAAAAATTAGGGAAACAGTCCGGGTTTTTATTCTATATCCCTGCGTGGAATACTTCTAAAATTGATCCTG TAACAGGCTTCGTAAACTTACTGGATACCCATTCACTGAATTCAAAAGAGAAGATTAAAGCATTTTTCTCCAAATT TGATGCTATTCGCTACAATAAAGATAAAAAATGGTTTGAATTTAATTTAGACTATGACAAGTTTGGGAAAAAAGCG GAAGATACCCGTACTAAATGGACATTGTGCACTCGTGGCATGCGTATCGACACCTTTCGCAACAAAGAGAAAAACT CACAGTGGGATAACCAGGAGGTAGACTTAACGACGGAGATGAAGAGTTTGTTGGAGCATTACTACATTGATATCCA TGGAAATCTGAAGGATGCCATCTCGGCCCAAACCGATAAGGCGTTCTTCACCGGCCTGTTGCATATCTTGAAGTTG ACACTTCAAATGCGTAACTCTATTACAGGTACAGAGACCGATTATTTGGTTTCACCCGTTGCGGATGAGAACGGAA TCTTTTATGATTCTCGCTCGTGCGGCAACCAACTTCCAGAGAATGCCGATGCAAATGGCGCGTACAATATTGCTCG CAAAGGATTAATGCTTATCGAACAAATCAAAAATGCGGAAGATTTGAATAACGTAAAATTCGACATCTCAAACAAA GCCTGGTTAAATTTCGCGCAACAGAAGCCCTACAAGAACGGTTGA SEQ ID NO: 55 ART14_WT ATGGCTAAGAATTTTGAAGATTTTAAGAGACTTTATTCTCTTTCAAAGACTTTGCGCTTTGAAGCGAAGC CTATTGGTGCCACTTTGGATAATATAGTCAAAAGTGATTTGCTGGATGAAGATGAACACAGAGCTGCAAG CTATGTGAAGGTGAAGAAATTGATTGATGAATATCACAAGGTATTTATTGATAGAGTGTTGGATGATGGC TGTTTGCCTTTGGAAAATAAAGGTAATAATAATTCATTGGCAGAATATTATGAGAGCTATGTATCTAGAG CGCAAGATGAGGATGCAAAAAAGAAGTTTAAGGAAATACAGCAAAATCTTCGTTCTGTCATTGCGAAAAA ACTAACCGAAGATAAGGCTTATGCTAATTTGTTTGGTAACAAACTTATAGAGTCGTATAAGGACAAAGAG GATAAGAAAAAGATAATTGATTCAGATTTGATTCAATTCATCAATACCGCAGAATCAACTCAACTTGATT CTATGTCACAAGATGAGGCCAAAGAACTTGTGAAAGAATTCTGGGGCTTTGTTACTTATTTTTACGGCTT CTTTGATAATCGTAAAAATATGTATACGGCAGAAGAGAAGTCAACTGGTATTGCTTATCGACTAGTTAAT GAAAACCTTCCAAAATTCATTGATAATATAGAGGCTTTTAATAGAGCTATAACCAGACCAGAGATACAGG AAAATATGGGAGTCTTGTATTCAGATTTTTCCGAATACTTAAATGTTGAGAGTATTCAGGAAATGTTCCA GCTTGACTATTATAATATGTTGCTTACTCAAAAGCAGATTGATGTCTATAATGCTATAATTGGTGGAAAA ACTGATGATGAACACGATGTTAAGATTAAAGGTATCAACGATTATATCAATCTCTACAATCAGAAGCATA AAGATGACAAATTACCAAAACTTAAGGCATTGTTTAAGCAGATTCTTAGTGATAGAAATGCAATATCTTG GTTGCCAGAAGAGTTCAATAGTGATCAGGAAGTCTTGAATGCTATCAAGGATTGTTATGAGCGATTGTCT GAAAATGTTTTGGGTGATAAGGTTCTCAAGTCTATGCTTGGTTCTTTGGCAGATTATTCTCTTGATGGGA TATTTATCCGTAATGACTTACAGTTGACTGATATTTCTCAGAAGATGTTTGGAAATTGGAGCGTGATTCA AAATGCCATTATGCAGAATATAAAGCATGTTGCTCCTGCCAGAAAACATAAGGAATCTGAGGAAGAATAC GAAAATAGAATTGCTGGTATATTCAAAAAGGCAGATAGCTTTAGTATCAGCTATATAGATGCTTGTTTGA ACGAAACAGACCCAAATAATGCCTACTTTGTAGAGAACTATTTTGCGACATTGGGTGCAGTAGATACTCC AACGATGCAGCGTGAGAACTTGTTTGCGCTTGTTCAAAATGCATATACTGAGATAACAGCATTACTCCAT TCTGATTATCCAACTGAGAAAAATTTAGCACAGGACAAGGCTAATGTTGCTAAAATCAAAGCATTGTTGG ATGCGATTAAGTCTTTGCAACATTTCGTAAAGCCTCTGTTGGGGAAGGGAGATGAAAGTGATAAAGATGA ACGTTTCTATGGTGAATTGGCTTCGTTGTGGGCAGAACTTGATACAATGACACCGCTGTATAATATGATT CGTAATTATATGACTCGTAAGCCATATTCCCAAAAGAAGATCAAACTTAACTTTGAGAATCCTCAATTGC TTGGGGGGTGGGATGCAAATAAGGAGAAAGACTATGCTACCATTATCTTACGTCGTAATGGTTTGTATTA TCTTGCTATTATGAACAAAGACTCAAAGAAATTATTGGGTAAAGCAATGCCTTCTGATGGGGAGTGCTAT GAAAAAATGGTATATAAGTTATTGCCTGGTGCTAATAAGATGCTTCCGAAAGTGTTCTTTGCTAAATCAA GAATGGAAGATTTTAAGCCAAGTAAGGAACTTGTTGAGAAATATTACAATGGTACTCACAAAAAGGGAAA GAATTTCAATATTCAAGATTGCCATAATTTGATAGATTACTTTAAGCAGTCTATTGATAAGCATGAAGAC TGGAGCAAGTTTGGATTTAAATTCTCAGATACTTCTACATACGAAGACCTTAGTGGATTCTATCGTGAAG TAGAACAGCAGGGTTATAAGTTGTCTTTTGCAAGAGTATCTGTTTCGTATATCAACCAGCTTGTTGAGGA GGGGAAGATGTATCTGTTCCAAATCTACAATAAGGATTTCTCTGAGTATAGCAAAGGTACTCCAAATATG CATACTCTTTATTGGAAAGCATTGTTTGATGAACGTAATCTGGCAGATGTTGTTTACAAGCTTAATGGAC AGGCAGAGATGTTCTATCGTAAGAAAAGTATAGAAAATACTCATCCAACTCATCCTGCTAATCATCCTAT TCTGAATAAGAATAAGGATAATAAGAAAAAAGAAAGCTTGTTTGGCTATGATCTTATAAAAGATCGTCGC TATACTGTTGATAAATTTTTGTTCCATGTGCCAATCACAATGAACTTTAAAAGTTCTGGTTCTGAGAACA TCAATCAAGATGTGAAGGCGTATTTGCGTCACGCAGATGATATGCATATTATTGGTATTGATCGTGGCGA ACGCCATTTGCTTTATTTGGTTGTAATTGATTTGCAAGGAAATATCAAGGAACAGTTCTCGCTTAATGAA ATTGTGAATGATTATAATGGTAATACCTATCATACCAATTATCACGATTTGTTGGATGTTCGTGAAGACG AACGACTCAAAGCTCGTCAAAGTTGGCAGACCATAGAGAATATCAAAGAGCTGAAAGAGGGCTATTTGTC TCAGGTTATCCACAAGATTACACAGCTCATGGTTAAATATCATGCCATAGTTGTATTGGAGGATTTGAAC ATGGGATTTATGCGTGGTCGGCAAAAGGTAGAAAAGCAAGTATATCAGAAATTTGAGAAAATGTTGATAG AAAAGCTAAACTATTTAGTTGACAAGAAGGCTGATGCTTCTGTTTCTGGAGGTTTGTTGAATGCATACCA GTTGACTAGCAAGTTTGATAGTTTCCAAAAGCTAGGAAAACAGAGCGGATTCCTGTTCTATATTCCTGCA TGGAATACATCTAAGATAGACCCAGTTACAGGATTTGTCAACTTGTTGGATACTCGATATCAAAATGTAG AAAAGGCAAAAAGTTTCTTCTCTAAGTTTGATGCTATCCGTTATAATAAGGATAAGGAATGGTTTGAGTT TAATCTCGACTATGACAAATTTGGTAAAAAAGCAGAGGGTACAAGGACTAAGTGGACTTTATGTACTCGA GGAATGCGTATTGATACTTTCAGAAATAAAGAAAAAAACTCACAATGGGACAACCAGGAAGTAGACTTGA CTGCTGAGATGAAATCTTTATTGGAGCATTATTATATTGACATTCATAGTAATCTCAAGGATGCTATCAG TGCGCAAACAGACAAGGCCTTCTTTACGGGATTGCTACACATTTTGAAGTTGACCTTGCAGATGCGTAAT AGTATCACTGGAACAGAAACTGATTATCTGGTATCTCCTGTTGTCGATGAGAATGGAATATTCTATGATA GTCGTTCTTGTGGTGATGAACTTCCTGAGAATGCGGATGCTAATGGTGCTTATAATATCGCTCGTAAGGG ACTGATGATGATTGAGCAGATAAAAGATGCTAAGGATTTGGATAACTTGAAGTTTGATATTTCCAATAAG GCTTGGCTCAATTTTGCACAACAAAAGCCATATAAGAATGGATGA SEQ ID NO: 56 ART14_Optimized1 ATGGCGAAAAATTTCGAGGACTTCAAGCGCTTATACTCCTTATCCAAGACGTTGCGCTTTGAGGCAAAACCAATCG GCGCCACCTTAGATAATATCGTCAAATCCGACTTACTTGACGAGGATGAACATCGTGCAGCTTCTTATGTTAAAGT CAAAAAGTTGATTGACGAGTACCACAAGGTCTTCATTGATCGTGTCCTGGACGACGGCTGCTTACCCTTAGAAAAC AAAGGAAATAATAACAGCTTGGCTGAGTATTATGAGTCCTATGTGAGTCGTGCGCAGGATGAAGACGCGAAGAAGA AATTCAAAGAAATTCAGCAGAATCTGCGCTCCGTAATTGCAAAAAAATTGACTGAAGACAAAGCTTACGCGAACTT ATTCGGCAATAAATTGATCGAATCATATAAAGACAAAGAAGATAAGAAAAAGATCATTGACTCCGATCTTATTCAA TTTATCAACACCGCCGAATCCACACAATTGGATAGCATGAGTCAGGACGAGGCCAAAGAACTGGTTAAAGAGTTTT GGGGGTTTGTCACGTATTTTTATGGATTCTTCGACAACCGCAAAAATATGTATACTGCCGAAGAGAAATCCACAGG TATTGCATATCGTCTTGTCAACGAGAACTTACCCAAATTCATTGACAATATTGAAGCCTTTAACCGCGCTATCACG CGTCCAGAAATTCAGGAGAACATGGGCGTGTTGTATAGCGACTTTTCGGAATACCTTAATGTTGAGTCGATCCAGG AAATGTTCCAACTTGACTACTATAACATGCTGCTGACTCAAAAACAAATCGACGTTTATAATGCGATTATCGGGGG CAAAACCGACGATGAACATGACGTAAAGATCAAGGGCATTAACGACTACATTAACCTGTATAATCAGAAACATAAG GATGACAAATTGCCGAAGTTGAAGGCTTTGTTCAAGCAAATCCTTTCGGACCGTAATGCGATCTCATGGTTACCAG AAGAATTCAATTCAGATCAAGAAGTTCTGAACGCCATTAAGGACTGTTATGAACGCCTGTCGGAAAATGTTCTTGG GGATAAGGTTTTAAAGTCTATGCTTGGCTCTCTTGCTGATTATTCCTTAGACGGTATTTTCATTCGCAATGATCTG CAATTGACGGACATCAGTCAGAAGATGTTCGGGAACTGGTCGGTCATCCAGAATGCGATTATGCAGAACATTAAGC ACGTGGCGCCGGCACGCAAACATAAAGAGAGCGAGGAAGAATATGAAAATCGTATTGCGGGTATTTTTAAGAAAGC GGATTCATTTTCTATCAGTTATATCGATGCCTGCCTTAATGAGACTGACCCCAACAATGCGTACTTTGTAGAGAAC TATTTCGCGACTCTGGGGGCCGTGGATACACCAACCATGCAGCGCGAAAATCTTTTCGCGCTGGTACAAAACGCAT ACACAGAAATCACGGCGTTGTTACATTCTGACTATCCGACCGAAAAAAATTTGGCACAAGACAAGGCCAACGTCGC GAAAATCAAGGCGCTGCTTGACGCTATCAAAAGCCTGCAGCACTTTGTCAAGCCTTTGTTAGGAAAGGGAGACGAA TCAGATAAAGACGAGCGCTTTTATGGCGAGTTGGCTTCGTTGTGGGCCGAATTGGATACCATGACGCCCCTTTACA ATATGATCCGCAACTACATGACTCGTAAGCCCTATAGCCAAAAGAAAATCAAGTTAAATTTCGAGAATCCACAATT ACTGGGCGGGTGGGATGCCAATAAGGAGAAAGATTACGCTACAATTATTTTACGTCGCAACGGCTTGTACTATCTT GCCATCATGAACAAAGATAGCAAAAAGTTACTGGGAAAAGCAATGCCTTCGGACGGTGAGTGTTATGAAAAAATGG TGTACAAACTTTTACCAGGAGCTAATAAGATGTTACCCAAGGTGTTTTTCGCTAAGAGCCGTATGGAAGACTTCAA GCCCTCAAAAGAATTAGTGGAGAAGTATTACAATGGAACTCACAAGAAGGGTAAGAATTTCAACATTCAGGATTGC CATAATCTGATCGACTATTTTAAACAATCTATTGATAAGCATGAGGACTGGAGTAAATTTGGGTTTAAGTTCAGCG ATACGTCGACATATGAGGATCTGTCTGGCTTTTACCGTGAAGTGGAACAACAAGGCTATAAATTGAGTTTCGCCCG CGTCTCTGTATCATACATTAATCAATTGGTGGAAGAAGGCAAAATGTATCTTTTTCAGATCTACAACAAAGATTTT TCAGAATATTCTAAAGGGACGCCTAACATGCATACCTTATATTGGAAGGCTTTGTTTGATGAACGTAATCTGGCTG ACGTTGTCTACAAATTAAACGGGCAAGCAGAGATGTTTTATCGCAAGAAGTCTATTGAGAACACGCACCCCACACA CCCCGCCAATCACCCTATTCTGAATAAGAACAAGGACAATAAGAAAAAAGAAAGTTTGTTCGGGTATGACCTGATC AAAGACCGCCGTTATACGGTCGACAAGTTTCTTTTCCACGTGCCGATTACCATGAATTTTAAATCTTCTGGGTCCG AGAACATTAACCAAGACGTCAAGGCCTATCTTCGCCATGCGGATGACATGCATATTATTGGTATTGACCGCGGTGA GCGTCATCTTTTATATCTTGTTGTCATCGATTTACAAGGCAATATTAAAGAGCAATTTTCGTTGAATGAGATTGTT AATGACTACAATGGTAATACCTATCACACCAATTACCATGATCTTTTGGACGTCCGTGAGGATGAGCGTCTTAAAG CTCGTCAAAGCTGGCAAACGATTGAAAATATTAAGGAACTGAAAGAAGGTTATTTGTCTCAGGTCATCCACAAGAT CACCCAACTTATGGTAAAATACCATGCAATCGTGGTGTTGGAAGATTTGAATATGGGTTTCATGCGCGGACGCCAA AAGGTAGAAAAACAGGTGTATCAGAAATTCGAGAAGATGTTGATTGAGAAGTTGAACTATTTAGTCGACAAAAAGG CAGATGCGTCTGTTAGTGGCGGTCTGTTAAACGCTTATCAGTTGACAAGTAAATTTGACAGCTTCCAAAAACTGGG AAAGCAGTCAGGTTTCTTATTCTACATCCCGGCCTGGAATACGAGTAAAATCGATCCTGTAACAGGATTCGTGAAT TTATTAGACACTCGTTATCAAAATGTAGAGAAGGCTAAGTCGTTCTTTAGTAAATTTGACGCTATCCGTTATAATA AGGACAAGGAATGGTTTGAATTTAACTTGGACTACGACAAGTTCGGTAAAAAAGCCGAGGGTACCCGCACTAAGTG GACCTTATGTACACGTGGAATGCGTATCGACACCTTTCGTAATAAGGAGAAAAATTCTCAGTGGGATAATCAGGAG GTTGATTTGACGGCTGAGATGAAGAGTCTGCTTGAGCATTACTATATTGATATTCATTCGAATCTGAAGGACGCAA TCTCAGCTCAGACTGACAAGGCCTTTTTTACCGGGTTACTTCACATCTTGAAATTGACACTGCAAATGCGCAATAG TATTACCGGGACTGAAACTGACTACTTAGTGAGTCCGGTAGTTGATGAAAACGGAATTTTCTACGATTCACGCTCA TGTGGCGATGAGTTGCCAGAAAATGCGGACGCTAACGGTGCTTACAACATCGCCCGTAAAGGTTTAATGATGATCG AGCAAATTAAAGACGCTAAGGACTTAGACAATTTGAAGTTCGATATTAGTAATAAGGCGTGGTTGAATTTCGCCCA ACAAAAGCCGTATAAAAATGGTTGA SEQ ID NO: 57 ART14_Optimized2 ATGGCAAAAAATTTTGAAGACTTTAAGCGTTTATACAGTTTGTCCAAGACTTTACGTTTTGAGGCTAAACCTATTG GCGCAACCCTGGACAACATTGTAAAGTCTGACCTTCTGGACGAAGATGAACACCGTGCCGCCTCTTACGTAAAAGT CAAAAAATTGATCGACGAATATCATAAGGTCTTCATCGATCGCGTGCTTGACGACGGCTGTTTACCTCTGGAGAAT AAAGGTAATAACAATTCCCTGGCTGAATATTACGAAAGCTACGTCAGTCGCGCTCAAGACGAAGACGCAAAAAAAA AGTTCAAGGAAATTCAACAAAATCTTCGCTCCGTGATTGCCAAGAAGCTGACAGAAGATAAGGCATACGCCAACCT GTTCGGTAACAAGTTGATCGAGAGTTACAAAGATAAAGAGGACAAGAAGAAAATCATCGATAGCGATCTGATCCAA TTCATCAATACAGCGGAGTCAACCCAGCTGGACTCTATGTCCCAGGATGAAGCTAAAGAACTTGTGAAGGAATTCT GGGGTTTCGTAACCTATTTTTATGGGTTCTTCGACAATCGCAAAAATATGTACACTGCCGAGGAAAAGTCAACAGG AATCGCATATCGCTTGGTGAATGAGAATTTACCAAAATTTATCGACAATATTGAGGCCTTCAATCGCGCGATCACT CGTCCGGAAATTCAGGAGAACATGGGTGTCTTATACTCTGATTTCTCGGAGTACCTTAACGTAGAATCTATCCAGG AAATGTTTCAGCTTGATTACTACAATATGCTGTTGACACAGAAACAGATTGACGTGTATAATGCGATCATTGGTGG GAAGACCGATGACGAACATGATGTCAAGATTAAAGGGATCAATGACTACATTAACTTGTACAATCAGAAACATAAA GACGACAAGTTGCCGAAGTTGAAGGCTTTATTTAAGCAAATCCTTTCGGATCGTAACGCTATCTCGTGGTTACCCG AGGAGTTCAATAGCGATCAAGAAGTCTTGAATGCAATTAAGGATTGTTATGAGCGCTTATCAGAGAACGTATTAGG AGACAAAGTTCTTAAAAGCATGTTGGGCTCGCTTGCTGACTACAGTTTGGATGGCATTTTCATTCGTAACGATTTG CAATTAACAGATATTTCGCAAAAAATGTTCGGAAATTGGAGCGTCATCCAGAATGCTATCATGCAAAACATCAAGC ACGTGGCTCCCGCACGTAAACATAAAGAGTCTGAAGAAGAGTATGAAAATCGCATTGCTGGAATTTTTAAAAAGGC AGATAGCTTTAGTATTTCCTATATCGACGCGTGTTTGAATGAGACGGACCCAAACAATGCCTATTTCGTAGAGAAT TATTTTGCTACCCTGGGGGCAGTAGATACACCGACAATGCAACGTGAAAATCTTTTTGCGCTTGTCCAGAATGCGT ACACAGAAATCACGGCGCTGTTGCACTCTGACTATCCTACTGAAAAAAATCTTGCGCAGGACAAGGCCAACGTGGC AAAAATCAAGGCACTTCTTGATGCTATTAAAAGCTTACAACACTTCGTTAAGCCCCTGCTGGGCAAAGGGGACGAA AGTGATAAAGACGAGCGCTTTTATGGGGAGTTAGCTTCGCTGTGGGCTGAGCTGGATACCATGACGCCTTTATATA ACATGATCCGCAACTACATGACACGCAAACCTTATTCACAAAAGAAGATCAAGCTTAATTTTGAAAATCCGCAGTT GCTGGGGGGATGGGATGCGAATAAAGAGAAGGATTATGCCACCATTATTCTTCGTCGTAATGGCTTATACTATTTG GCAATCATGAATAAGGACTCCAAGAAGTTGCTGGGCAAAGCTATGCCGAGCGATGGAGAATGCTATGAGAAAATGG TCTATAAGTTGTTACCAGGTGCGAACAAGATGTTACCAAAGGTTTTTTTCGCAAAGTCGCGCATGGAAGATTTTAA ACCTTCCAAAGAATTAGTAGAAAAATATTATAACGGCACGCACAAGAAGGGCAAGAATTTCAATATTCAGGACTGT CACAATCTGATTGATTACTTTAAACAGTCGATTGATAAACACGAGGATTGGTCTAAATTTGGTTTTAAGTTTAGCG ATACCTCGACTTATGAAGACCTGTCAGGATTTTATCGCGAAGTCGAGCAGCAGGGATATAAGTTGTCATTTGCTCG TGTTAGCGTATCGTATATTAATCAGTTGGTAGAAGAGGGGAAGATGTATCTTTTCCAAATCTACAATAAGGATTTT TCGGAGTATTCAAAGGGAACACCAAATATGCACACCCTGTATTGGAAGGCTTTATTCGACGAGCGCAATCTTGCAG ACGTCGTCTATAAGCTTAATGGACAAGCGGAAATGTTCTACCGCAAAAAGTCCATTGAGAATACACACCCCACGCA CCCGGCTAATCACCCGATTCTGAATAAAAACAAAGACAACAAAAAAAAGGAAAGCTTATTTGGCTACGACTTAATC AAAGACCGCCGTTACACAGTAGACAAGTTCTTGTTTCACGTGCCTATTACAATGAATTTTAAAAGTAGCGGTTCAG AGAATATTAACCAAGACGTGAAAGCGTACTTACGTCATGCCGATGATATGCACATTATCGGTATTGACCGCGGAGA ACGTCACTTATTGTACTTGGTGGTTATTGATTTACAAGGGAACATCAAAGAGCAGTTCAGTTTGAACGAGATCGTG AATGACTACAATGGTAATACGTATCATACTAACTACCATGATCTTTTGGACGTGCGTGAGGATGAGCGCCTGAAAG CCCGTCAGAGCTGGCAGACCATCGAGAATATCAAAGAATTGAAGGAAGGCTACTTATCGCAGGTCATTCATAAAAT CACGCAACTGATGGTGAAATACCACGCGATTGTTGTTTTGGAAGATCTGAATATGGGGTTTATGCGTGGCCGTCAG AAAGTGGAGAAGCAAGTTTACCAGAAATTTGAAAAGATGTTGATTGAGAAGTTAAATTACTTGGTAGACAAGAAAG CAGACGCGTCTGTATCTGGAGGTTTGCTTAACGCATACCAGTTGACGTCAAAGTTTGATAGTTTTCAAAAATTAGG GAAACAATCCGGATTTCTGTTCTACATTCCCGCATGGAACACGTCAAAAATTGACCCGGTGACCGGCTTCGTTAAC TTATTGGACACTCGTTACCAAAATGTGGAGAAAGCCAAGTCTTTTTTCTCTAAATTCGACGCGATTCGTTACAACA AGGATAAAGAATGGTTTGAGTTTAACTTGGATTATGATAAGTTTGGGAAGAAAGCAGAAGGAACGCGTACTAAATG GACACTTTGTACACGTGGAATGCGCATCGATACGTTCCGCAATAAAGAAAAGAACTCCCAATGGGACAATCAAGAG GTTGATTTAACTGCAGAAATGAAGAGTTTACTTGAGCATTACTACATTGATATCCACTCAAACCTTAAAGATGCAA TCTCTGCTCAAACTGATAAAGCGTTTTTCACGGGATTACTGCATATCCTTAAGTTAACGTTACAGATGCGCAATAG TATCACCGGTACTGAAACAGATTATCTTGTCTCTCCGGTAGTGGACGAGAACGGCATTTTTTACGACAGTCGTTCG TGCGGGGACGAATTGCCTGAGAATGCGGATGCTAATGGGGCGTATAACATTGCGCGCAAAGGGCTTATGATGATCG AACAGATCAAAGACGCTAAGGACCTGGATAACTTGAAGTTTGATATTAGCAATAAGGCTTGGCTGAACTTCGCTCA GCAAAAACCATATAAGAATGGCTGA SEQ ID NO: 58 ART14_Optimized3 ATGGCCAAGAACTTTGAGGACTTTAAGCGTTTGTACTCCTTAAGCAAGACCCTGCGTTTCGAGGCGAAGCCAATTG GGGCTACGTTGGATAACATCGTCAAATCTGATTTGTTGGATGAAGACGAGCACCGTGCAGCTTCGTATGTAAAAGT AAAAAAGTTAATTGATGAGTATCACAAAGTATTCATCGACCGCGTACTGGACGACGGATGCTTACCCTTAGAGAAC AAAGGCAACAACAATTCTTTGGCGGAATACTATGAAAGCTATGTAAGTCGTGCTCAGGATGAGGATGCGAAGAAGA AGTTTAAAGAAATTCAACAGAACCTGCGCTCAGTGATCGCAAAAAAATTGACGGAGGACAAGGCCTATGCTAATTT GTTCGGGAATAAACTTATTGAATCATATAAAGATAAAGAGGATAAGAAGAAAATTATTGATAGCGATCTGATTCAG TTCATCAATACAGCGGAATCGACGCAATTGGATAGTATGTCGCAGGACGAAGCAAAGGAGTTGGTCAAAGAATTTT GGGGCTTCGTTACTTACTTCTACGGGTTTTTCGATAACCGTAAAAACATGTATACTGCGGAAGAAAAATCCACTGG GATTGCCTATCGTCTGGTGAATGAGAATCTGCCAAAATTTATCGACAATATCGAGGCTTTTAATCGTGCAATCACA CGCCCCGAGATTCAGGAAAATATGGGGGTTTTATATTCGGATTTTAGTGAGTATCTGAATGTTGAATCTATCCAGG AAATGTTTCAGCTTGACTACTACAATATGCTGCTTACTCAAAAGCAGATCGATGTTTATAATGCAATCATTGGAGG CAAGACTGATGACGAACATGATGTAAAGATTAAAGGTATCAATGACTATATCAATTTATACAACCAGAAACATAAG GACGATAAATTGCCAAAACTTAAAGCTCTTTTTAAGCAGATTCTTTCAGACCGTAATGCAATTTCATGGCTTCCGG AAGAATTCAATTCCGACCAGGAGGTCTTAAACGCGATTAAAGACTGTTATGAGCGTTTAAGTGAAAACGTTTTAGG TGATAAAGTACTTAAGTCAATGTTGGGATCGCTTGCAGATTATTCCTTAGACGGGATCTTTATTCGTAACGACCTT CAGCTTACGGATATCTCTCAAAAAATGTTTGGGAATTGGTCCGTCATCCAAAACGCCATCATGCAAAATATTAAAC ACGTTGCCCCTGCGCGTAAACACAAGGAAAGTGAGGAAGAGTATGAAAACCGTATTGCGGGAATCTTTAAAAAAGC AGATTCTTTTTCAATCAGCTATATTGATGCCTGCCTGAACGAGACTGACCCCAATAATGCTTACTTCGTAGAAAAC TATTTCGCCACTTTGGGTGCGGTAGACACCCCTACAATGCAGCGTGAGAACTTGTTTGCGCTGGTGCAAAACGCGT ATACGGAAATTACAGCTCTTCTTCATTCGGATTACCCTACTGAAAAAAACCTTGCCCAGGACAAAGCCAACGTGGC AAAAATCAAAGCGTTACTGGACGCAATCAAATCTTTGCAACATTTTGTAAAACCTCTGCTGGGGAAAGGCGATGAG AGCGATAAGGATGAGCGCTTCTATGGCGAGCTGGCAAGCCTTTGGGCTGAGCTTGACACGATGACGCCGCTTTACA ACATGATTCGCAATTATATGACCCGCAAACCGTATAGTCAAAAAAAGATTAAGTTAAACTTTGAAAACCCCCAGCT GCTGGGCGGGTGGGACGCTAATAAAGAGAAAGACTATGCGACAATTATCCTTCGTCGCAATGGCCTGTACTACTTA GCAATCATGAATAAGGACTCAAAGAAGCTTTTGGGCAAGGCAATGCCGTCGGATGGCGAATGTTATGAGAAGATGG TTTACAAGTTACTGCCCGGCGCCAATAAAATGTTACCAAAGGTCTTTTTCGCAAAGTCCCGCATGGAAGATTTCAA GCCCTCCAAAGAGTTAGTTGAGAAGTACTACAATGGTACTCATAAAAAGGGGAAAAACTTCAATATCCAAGACTGC CACAATCTTATTGATTACTTTAAGCAGTCCATTGACAAACACGAGGATTGGAGCAAGTTCGGTTTCAAGTTTAGTG ATACTAGCACCTATGAAGATCTTTCGGGTTTCTACCGCGAAGTCGAACAACAGGGCTACAAGTTAAGTTTTGCCCG TGTTAGTGTGAGCTACATCAACCAACTGGTGGAAGAGGGCAAAATGTATCTGTTTCAAATTTATAATAAAGATTTC TCTGAATATTCCAAGGGCACTCCAAATATGCACACTCTGTACTGGAAAGCATTATTTGACGAGCGCAATCTTGCAG ATGTGGTCTACAAATTGAACGGGCAGGCGGAAATGTTCTATCGCAAGAAAAGTATTGAAAATACACACCCGACACA CCCTGCAAACCACCCAATCTTGAACAAAAACAAAGACAACAAAAAAAAGGAGAGTTTATTCGGGTACGATCTGATC AAGGATCGTCGCTATACGGTTGACAAATTTCTTTTCCATGTTCCAATTACTATGAACTTCAAAAGCTCCGGCTCCG AGAACATCAACCAAGACGTTAAAGCGTATCTGCGTCACGCGGACGACATGCATATTATTGGGATCGATCGTGGCGA ACGTCATCTGTTATATTTAGTTGTTATTGATTTGCAAGGTAATATCAAGGAACAGTTCTCATTGAATGAAATTGTC AACGACTACAACGGTAACACCTATCACACTAATTACCACGACTTGTTAGACGTCCGTGAAGATGAGCGTCTTAAAG CACGCCAGAGTTGGCAGACAATTGAGAACATCAAGGAACTGAAAGAGGGCTACCTTAGTCAAGTGATTCACAAAAT TACCCAACTGATGGTTAAATACCACGCAATCGTAGTCTTAGAGGACCTTAACATGGGGTTCATGCGTGGTCGTCAA AAAGTCGAAAAGCAAGTATATCAAAAATTCGAAAAGATGCTTATCGAAAAATTAAACTACTTAGTGGATAAGAAGG CTGACGCTTCAGTCTCTGGTGGATTGTTAAACGCCTATCAGCTGACTAGCAAGTTCGACAGCTTTCAAAAATTAGG CAAACAGTCCGGTTTCTTATTCTACATCCCGGCATGGAATACCAGTAAAATTGATCCTGTAACCGGTTTCGTGAAC TTATTGGACACTCGTTACCAAAATGTTGAGAAAGCTAAATCTTTCTTTAGTAAATTCGACGCTATTCGTTATAATA AGGATAAGGAGTGGTTCGAATTCAACTTGGACTATGATAAATTTGGCAAAAAAGCCGAAGGTACGCGTACTAAATG GACCCTTTGCACTCGCGGCATGCGTATCGATACATTTCGTAACAAGGAGAAAAACTCGCAGTGGGATAATCAAGAG GTCGATCTGACGGCCGAGATGAAATCATTATTAGAGCATTATTACATTGATATTCACTCGAATCTTAAAGACGCCA TTTCAGCCCAGACCGATAAAGCCTTTTTTACAGGCTTATTACATATCTTAAAATTGACGTTACAAATGCGTAACTC GATCACTGGAACTGAGACTGACTACCTGGTTAGCCCCGTGGTTGATGAAAACGGGATCTTTTACGATTCACGTAGT TGTGGGGATGAATTGCCAGAGAATGCTGATGCAAATGGTGCATATAACATCGCCCGCAAAGGTCTTATGATGATTG AACAAATTAAAGATGCAAAAGACCTGGATAATTTGAAGTTTGACATTAGCAACAAGGCCTGGCTTAACTTTGCACA GCAAAAACCTTATAAGAATGGATGA SEQ ID NO: 59 ART15_WT ATGTTGTTTCAAGACTTTACCCATTTATATCCCTTATCAAAAACCGTGCGTTTTGAATTAAAGCCCATTG GCAGGACATTAGAGCATATCCATGCCAAAAACTTTTTGAGCCAAGATGAGACCATGGCGGACATGTACCA AAAGGTGAAGGTGATACTCGACGATTATCATCGTGATTTTATCGCTGATATGATGGGCGAAGTTAAGCTA ACTAAGCTGGCAGAATTTTATGATGTGTATTTAAAATTTAGAAAAAATCCCAAAGACGATGAATTGCAAA AACAGCTAAAGGACTTGCAAGCAGTTTTAAGAAAAGAGAGTGTGAAGCCCATCGGTAATGGCGGAAAATA CAAGGCGGGTCATGACCGCTTGTTTGGGGCAAAGCTCTTTAAGGACGGCAAAGAGCTTGGTGATTTGGCA AAATTTGTCATCGCCCAAGAGGGTAAGTCATCGCCAAAGCTTGCTCACCTTGCCCATTTTGAGAAGTTTA GCACTTACTTTACTGGTTTTCATGATAACCGCAAAAACATGTACAGCGATGAGGATAAACACACCGCCAT TGCCTATCGTCTGATACATGAAAACCTGCCACGTTTTATTGACAACCTACAAATACTGACAACCATCAAA CAAAAGCACTCGGCGTTGTATGACCAGATTATAAATGAGCTGACTGCGAGTGGCTTGGATGTGTCGCTGG CAAGTCATCTGGACGGCTATCACAAGCTTTTAACCCAAGAGGGTATCACGGCTTATAATAGGATAATAGG TGAAGTGAATGGTTATACGAATAAGCACAATCAAATTTGCCACAAATCCGAACGTATCGCCAAATTACGC CCCCTACACAAACAAATCCTAAGCGACGGCATGGGTGTGTCATTTTTGCCAAGCAAATTTGCTGATGATA GCGAGATGTGTCAAGCGGTCAATGAATTTTACCGCCATTATGCCGATGTTTTTGCCAAGGTGCAAAGCTT GTTTGATGGGTTTGATGACCATCAAAAGGACGGCATTTATGTTGAGCATAAAAATTTAAATGAACTATCC AAGCAGGCATTTGGTGATTTTGCCTTGTTGGGTCGGGTGCTGGACGGCTATTATGTGGATGTGGTGAATC CAGAGTTTAATGAAAGATTTGCCAAAGCCAAAACCGACAATGCCAAAGCAAAACTGACTAAAGAAAAAGA CAAATTCATCAAAGGCGTACACTCCTTGGCAAGCCTTGAGCAGGCGATAAAGCATCATACTGCTAGGCAT GATGATGAGTCTGTGCAGGCGGGCAAACTTGGACAGTATTTCAAACACGGTCTGGCAGGCGTGGATAATC CAATCCAAAAAATACACAACAACCACAGCACCATTAAGGGTTTTTTGGAGCGTGAACGTCCAGCAGGCGA GCGAGCATTGCCCAAAATTAAGTCAGGCAAAAACCCTGAAATGACGCAGTTAAGACAGCTAAAAGAGCTG CTAGACAATGCCCTAAACGTGGCGCATTTTGCCAAGTTATTAATGACCAAAACCACGCTAGACAACCAAG ACGGCAATTTTTATGGTGAGTTTGGGGTGTTGTATGATGAGCTTGCCAAGATTCCCACGCTTTATAACAA AGTGCGCGATTATCTGTCGCAAAAGCCATTTAGCACCGAAAAATATAAATTAAACTTTGGCAATCCGACA TTATTAAACGGGTGGGATTTGAATAAAGAAAAAGATAATTTTGGGGTTATCTTACAAAAAGACGGCTGTT ATTATTTGGCGTTATTAGATAAAGCTCATAAAAAAGTATTTGATAATGCTCCAAATACAGGCAAAAATGT TTATCAAAAAATGATTTATAAATTATTGCCCGGACCTAATAAAATGCTACCCAGAGTATTTTTTGCCAAG AGTAATTTGGATTATTATAACCCTTCTGCTGAACTACTGGATAAATATGCACAAGGCACGCACAAAAAAG GCGATAATTTTAATCTAAAAGACTGCCATGCGTTGATTGATTTTTTTAAGGCGGGTATTAATAAACATCC AGAATGGCAAAATTTTGGTTTTAAATTTTCGCCAACCAGTAGCTATCGAGATTTGAGTGATTTTTATAGA GAAGTCGAACCACAAGGTTATCAAGTAAAATTTGTGGATATCAACGCCGATTATATTGACGAGTTGGTTG AACAAGGTCAGTTGTATTTATTCCAGATTTATAATAAAGATTTCTCGCCCAAGGCTCACGGTAAGCCTAA TTTACATACTTTATATTTTAGGGCGTTATTTAGTGAAGATAATCTTGCCAATCCGATTTATAAGTTAAAT GGCGAGGCACAGATATTTTATCGCAAGGCGTCTTTGGGTATGAATGAAACCACCATTCATCGTGCAGGCG AGATATTAGAAAATAAAAATCCCGATAATCCCAAAGAACGTGTATTTACCTATGACATCATCAAAGATAG ACGCTATACCCAAGATAAGTTTATGCTACATGTGCCTATTACCATGAATTTTGGCGTGCAGGGCATGACG ATTAAAGAATTTAATAAAAAAGTGAATCAAAGCATACGGCAATATGATGATGTCAATGTCATAGGCATAG ACCGTGGCGAGCGACATTTGCTATATCTGACCGTGATTAATAGCAAAGGTGAAATCTTAGAACAGCGTAG TCTCAATGACATCACTACCGCATCAGCAAATGGCACACAAATGACCACGCCTTATCATAAGATACTGGAC AAAAGAGAAATAGAACGCCTAAATGCTCGTGTCGGTTGGGGTGAGATTGAGACCATAAAAGAGCTAAAAT CGGGCTATCTAAGCCATGTGGTACATCAAGTCAGCCAGCTTATGCTTAAATATAATGCCATTGTGGTATT AGAGGATTTAAATTTTGGGTTTAAGCGTGGTCGCTTTAAGGTGGAAAAACAAATTTACCAAAACTTTGAA AACGCCTTAATCAAAAAGCTAAACCATTTGGAATTAAAAGATAAGGCAGATGATGAGATTGGCTCATACA AAAATGCCCTGCAATTGACCAATAATTTTACTGATCTAAAAAACATTGGCAAACAAACAGGCTTTTTATT CTATGTGCCTGCATGGAATACCAGTAAAATAGACCCTGAAACGGGCTTTGTGGATTTGTTAAAACCACGT TATGAAAATATCGCTCAGTCGCAAGCGTTTTTTGGTAAATTTGATAAGATTTGTTATAACGCAGATAAGG ATTATTTTGAATTTCATATTGATTATGCCAAATTTACTGACAAAGCCAAAAACTCTCGCCAAACATGGAC GATTTGCTCGCATGGCGATAAACGTTATGTGTATGACAAAACCGCCAATCAAAATAAAGGAGCGACCAAG GGTATTAATGTTAATGATGAATTAAAATCGCTATTTGCTCGCTATCACATCAATGAAAAACAGCCAAATT TGGTCATGGATATTTGCCAAAATAACGACAAAGAATTTCATAAATCGCTGATGTATCTATTAAAGACATT GCTTGCATTACGATATAGTAACGCCAGTAGCGATGAAGATTTTATTTTATCGCCTGTGGCAAATGATGAG GGTGTGTTTTTTAATTCGGCATTGGCGGATGATACACAGCCACAAAATGCGGATGCCAATGGGGCATATC ATATCGCATTAAAGGGCTTATGGCTATTAAATGAGCTAAAAAACAGTGATGATTTGAATAAAGTCAAACT TGCCATTGATAATCAAACATGGCTAAACTTCGCTCAAAACCGCTAA SEQ ID NO: 60 ART15_Optimizedl ATGTTATTTCAGGATTTCACGCATTTATATCCTTTAAGCAAGACAGTCCGTTTTGAATTGAAGCCTATTGGGCGCA CCCTTGAGCACATCCATGCAAAGAATTTTTTATCGCAGGATGAAACAATGGCGGATATGTACCAGAAAGTGAAGGT TATCCTTGATGACTACCATCGCGACTTTATTGCTGACATGATGGGGGAGGTCAAATTGACGAAGTTAGCGGAGTTT TATGACGTCTACCTTAAATTTCGTAAAAATCCAAAAGACGACGAACTGCAGAAACAGCTGAAAGATTTACAGGCGG TATTACGTAAAGAATCGGTCAAGCCAATCGGTAATGGTGGCAAGTACAAAGCAGGCCATGATCGTTTGTTTGGTGC TAAACTTTTCAAGGACGGTAAAGAACTGGGCGACTTAGCTAAATTTGTCATTGCTCAAGAAGGGAAGTCAAGTCCT AAGTTAGCCCACCTGGCTCATTTTGAGAAATTCTCCACTTACTTCACGGGGTTTCACGACAATCGTAAGAACATGT ATAGTGATGAGGATAAACATACGGCAATTGCGTACCGTCTGATTCACGAAAACTTACCTCGTTTCATTGATAACCT TCAAATCCTTACTACCATCAAACAGAAGCATTCTGCGTTGTACGATCAAATCATTAATGAACTGACCGCGTCCGGT TTAGATGTAAGCCTTGCGTCACACCTGGATGGATATCACAAATTATTGACTCAGGAAGGGATTACTGCCTACAACC GTATCATTGGGGAGGTCAATGGGTATACTAACAAACATAATCAGATTTGCCATAAGTCTGAACGTATTGCCAAGTT GCGTCCGCTGCATAAGCAGATCCTTAGCGATGGTATGGGTGTCTCCTTTTTGCCTAGCAAATTCGCAGACGACAGT GAAATGTGCCAAGCAGTCAATGAATTTTATCGTCACTATGCGGATGTCTTTGCAAAAGTGCAAAGCCTTTTCGACG GTTTCGATGATCACCAAAAAGACGGAATTTATGTTGAGCATAAAAATCTTAACGAGTTAAGTAAGCAGGCTTTCGG TGATTTCGCCCTGCTGGGGCGTGTTTTAGACGGTTACTATGTGGATGTTGTTAATCCCGAATTTAACGAGCGCTTC GCTAAAGCCAAAACTGACAACGCTAAGGCTAAACTGACTAAAGAAAAGGACAAGTTCATTAAAGGCGTTCATTCAC TGGCAAGCTTAGAACAAGCCATCAAACATCACACGGCGCGTCATGATGACGAGTCGGTGCAGGCTGGTAAGTTAGG GCAGTACTTTAAGCACGGGCTGGCAGGAGTAGATAACCCAATTCAAAAAATTCACAATAATCATTCGACTATTAAA GGATTTCTGGAACGCGAACGCCCGGCCGGAGAACGTGCTTTGCCCAAAATTAAATCGGGAAAGAACCCTGAAATGA CTCAGCTTCGTCAGCTGAAAGAATTACTGGACAACGCCTTAAATGTAGCCCATTTTGCAAAGTTATTAATGACGAA GACCACGTTAGACAATCAAGACGGTAACTTCTACGGTGAGTTCGGCGTCTTATACGATGAACTTGCAAAAATCCCT ACACTTTACAACAAAGTGCGCGATTATCTTTCCCAAAAGCCATTCAGCACCGAGAAGTATAAGTTAAATTTCGGCA ATCCAACGTTACTTAATGGGTGGGATCTTAACAAAGAAAAAGACAACTTCGGTGTCATTCTTCAAAAAGACGGGTG TTACTACTTGGCCTTACTTGATAAAGCCCATAAGAAAGTTTTTGATAACGCCCCCAATACTGGGAAGAACGTATAT CAAAAAATGATTTATAAGTIGTTACCGGGGCCTAATAAAATGTTACCTCGTGTATTTTTCGCAAAGAGTAATTTGG ATTATTATAACCCCTCTGCCGAGTTATTGGACAAGTACGCGCAAGGCACACATAAAAAGGGTGATAACTTTAACCT GAAAGATTGCCATGCTTTGATCGACTTCTTTAAGGCGGGTATTAACAAGCACCCCGAGTGGCAAAATTTTGGTTTC AAGTTTAGCCCGACCTCCTCCTACCGTGACCTGAGTGACTTCTACCGCGAAGTTGAACCACAAGGCTATCAAGTCA AATTCGTTGATATTAACGCAGACTACATTGATGAATTAGTCGAGCAAGGTCAGTTATACCTGTTCCAGATTTACAA TAAAGATTTCTCGCCTAAAGCCCACGGAAAACCTAACCTTCACACGCTTTATTTTCGCGCACTTTTCAGTGAGGAT AATTTGGCTAACCCTATTTATAAGTTAAATGGTGAAGCCCAAATTTTCTACCGTAAAGCCTCCTTGGGGATGAACG AGACAACTATTCACCGTGCAGGGGAGATCTTGGAGAACAAAAATCCGGACAACCCAAAAGAGCGTGTTTTTACTTA TGACATTATCAAGGACCGTCGCTACACACAAGACAAGTTCATGCTTCATGTTCCGATCACGATGAATTTCGGCGTG CAGGGTATGACAATCAAGGAATTTAACAAGAAAGTGAACCAAAGTATTCGCCAGTATGATGATGTCAACGTGATTG GAATTGACCGCGGGGAACGTCATTTATTGTACCTGACCGTGATTAATAGCAAAGGAGAGATCCTGGAACAACGCAG CCTGAATGATATCACAACAGCCTCAGCGAACGGAACCCAAATGACAACACCCTATCATAAGATTCTGGATAAGCGC GAAATCGAACGCTTAAATGCTCGTGTCGGCTGGGGTGAGATCGAGACAATCAAGGAGCTGAAATCCGGCTACCTGT CGCATGTAGTTCACCAAGTCTCACAATTGATGCTTAAGTACAACGCAATTGTAGTTCTTGAAGATTTAAACTTTGG TTTTAAACGTGGCCGCTTTAAGGTTGAAAAGCAGATCTACCAGAACTTTGAAAACGCCCTTATCAAAAAATTAAAT CACCTTGAGTTGAAAGACAAAGCGGACGACGAAATCGGTTCATACAAAAATGCATTGCAATTGACGAACAATTTTA CCGATCTGAAAAATATTGGGAAACAGACGGGTTTCTTGTTTTATGTCCCTGCGTGGAACACGTCTAAGATTGACCC GGAGACAGGGTTTGTCGACTTATTAAAACCACGCTACGAGAATATTGCACAGTCCCAGGCCTTTTTCGGAAAGTTT GATAAGATTTGCTATAACGCAGATAAAGATTACTTTGAGTTCCACATCGATTATGCCAAATTTACCGACAAGGCAA AAAATTCCCGTCAAACCTGGACAATTTGCTCGCACGGCGACAAACGTTACGTTTATGACAAAACGGCGAATCAAAA TAAAGGCGCTACTAAGGGGATCAACGTAAATGACGAGTTAAAATCATTATTCGCCCGCTACCATATTAACGAAAAG CAACCAAATTTAGTGATGGACATCTGCCAAAACAACGACAAGGAGTTCCACAAGTCTCTTATGTATCTTCTGAAAA CACTTTTGGCGCTTCGCTACTCGAATGCGTCGTCCGATGAGGACTTCATCTTATCTCCGGTGGCTAATGACGAGGG TGTCTTTTTCAATTCTGCATTGGCCGATGACACGCAACCGCAGAACGCTGACGCCAACGGGGCATATCACATTGCG TTGAAAGGCCTTTGGCTGCTGAACGAGTTAAAGAATTCCGACGATCTGAATAAAGTGAAGCTGGCCATTGACAACC AAACGTGGCTTAATTTCGCACAAAATCGCTAA SEQ ID NO: 61 ART15_Optimized2 ATGCTGTTCCAGGATTTTACCCACTTGTACCCTCTGAGCAAGACGGTTCGTTTTGAATTGAAGCCTATTGGGCGCA CTTTGGAGCATATTCACGCAAAAAATTTCTTGTCGCAAGACGAAACTATGGCGGACATGTACCAGAAAGTCAAGGT GATCCTGGATGATTATCATCGTGACTTTATCGCAGATATGATGGGGGAGGTTAAACTTACCAAATTAGCTGAATTC TATGACGTCTACTTGAAGTTCCGCAAAAACCCAAAGGACGATGAGTTGCAAAAACAACTTAAGGACTTACAAGCTG TCCTTCGTAAGGAGAGCGTGAAACCAATTGGTAACGGCGGGAAATACAAGGCTGGGCATGACCGTTTGTTTGGAGC GAAACTTTTTAAGGATGGTAAGGAACTTGGAGATCTTGCCAAATTTGTTATTGCCCAGGAAGGGAAATCCTCGCCC AAATTAGCGCACCTTGCCCACTTCGAGAAGTTTAGCACATACTTTACGGGGTTTCATGATAACCGCAAGAATATGT ACTCGGATGAAGATAAACATACCGCTATTGCTTACCGCCTGATTCACGAGAATTTACCGCGCTTTATCGATAACCT TCAGATTTTGACTACAATTAAACAGAAGCATAGTGCATTGTACGATCAGATTATCAACGAGCTTACAGCGTCCGGT CTTGACGTAAGCTTGGCATCCCATCTGGACGGATATCATAAATTATTAACACAGGAAGGGATTACAGCATACAACC GCATTATTGGAGAAGTTAACGGGTATACAAATAAACATAACCAGATCTGCCACAAGTCAGAGCGCATTGCAAAACT TCGTCCCCTTCATAAACAAATCCTTAGTGACGGGATGGGCGTTAGTTTCTTGCCTAGTAAATTCGCGGACGATTCC GAAATGTGTCAAGCGGTAAACGAATTTTACCGCCACTATGCTGACGTTTTTGCAAAGGTACAAAGTTTATTCGATG GTTTCGATGACCACCAAAAGGACGGTATCTATGTTGAACACAAGAACTTAAATGAGTTATCTAAACAGGCATTCGG TGATTTTGCCTTATTGGGCCGTGTCTTGGACGGTTACTATGTGGATGTGGTAAACCCAGAATTTAATGAGCGTTTT GCTAAGGCCAAAACAGATAACGCGAAGGCGAAGTTAACCAAAGAAAAGGATAAATTTATCAAGGGTGTACATAGTT TGGCCTCCTTGGAACAAGCTATCAAACACCATACGGCGCGTCATGACGATGAGTCTGTCCAAGCTGGCAAATTGGG GCAATACTTCAAGCACGGGTTAGCTGGTGTGGATAATCCTATCCAAAAGATCCATAATAACCATTCAACTATTAAA GGTTTCTTAGAACGTGAACGTCCCGCGGGAGAACGTGCACTGCCTAAGATTAAATCGGGTAAGAACCCGGAAATGA CACAATTGCGCCAATTGAAGGAGCTGCTGGATAACGCTTTGAATGTAGCTCATTTTGCCAAGTTACTGATGACGAA GACCACGTTGGACAACCAAGATGGCAATTTCTATGGAGAATTTGGTGTTTTATATGATGAGTTGGCAAAAATCCCC ACACTGTACAATAAGGTCCGCGATTATTTGTCACAGAAACCCTTTTCTACTGAGAAATACAAACTGAATTTCGGAA ATCCGACATTACTGAACGGCTGGGACCTGAATAAGGAAAAAGACAATTTCGGCGTCATTCTGCAGAAAGATGGCTG CTACTACCTTGCACTTCTGGACAAAGCACACAAAAAGGTGTTTGATAACGCACCCAATACAGGTAAGAATGTATAC CAAAAAATGATTTACAAGCTTTTACCCGGACCTAACAAAATGTTACCCCGTGTCTTTTTCGCTAAATCAAATCTGG ATTATTACAACCCCAGCGCGGAGCTTCTTGACAAGTATGCACAAGGTACGCATAAGAAGGGGGATAATTTTAACTT AAAAGATTGCCACGCTCTGATCGATTTTTTCAAAGCGGGCATTAACAAACATCCTGAGTGGCAAAATTTCGGTTTC AAGTTCAGCCCTACCTCTTCATATCGCGATCTTTCCGATTTTTACCGTGAAGTTGAACCGCAGGGCTATCAGGTTA AGTTTGTTGATATCAACGCTGACTATATTGATGAGTTGGTGGAGCAAGGGCAATTATACTTATTTCAGATCTACAA TAAGGATTTTTCACCAAAAGCTCACGGTAAACCGAATCTTCACACACTGTACTTCCGCGCGTTATTTAGCGAGGAT AATCTTGCTAATCCAATTTATAAACTGAATGGTGAAGCTCAGATCTTTTACCGTAAGGCAAGCCTTGGAATGAACG AAACGACTATCCATCGCGCCGGAGAAATTTTGGAAAATAAGAACCCAGACAATCCCAAAGAGCGCGTCTTTACCTA CGATATCATCAAAGACCGCCGCTACACGCAAGACAAATTCATGCTGCACGTCCCTATTACCATGAACTTTGGCGTT CAGGGAATGACTATTAAGGAATTCAATAAAAAGGTAAATCAGTCAATCCGCCAGTACGACGATGTAAATGTTATCG GTATTGATCGCGGGGAGCGCCACCTTTTGTACCTTACCGTGATCAATTCTAAAGGCGAAATTCTTGAACAACGCTC ACTGAACGATATTACCACAGCTTCTGCAAATGGCACTCAAATGACGACACCCTACCACAAAATTCTGGACAAACGC GAGATCGAACGTTTAAACGCCCGTGTTGGGTGGGGAGAGATTGAGACCATTAAGGAATTGAAATCAGGATACCTGA GCCATGTAGTGCATCAAGTATCCCAGTTAATGTTGAAGTATAATGCAATCGTTGTCTTAGAAGATCTGAACTTTGG GTTCAAACGTGGCCGCTTCAAAGTAGAAAAGCAAATCTATCAAAACTTCGAAAATGCGTTGATCAAAAAGCTTAAC CACCTGGAATTGAAGGATAAGGCGGATGATGAGATTGGGAGCTACAAAAATGCTCTTCAACTTACGAATAACTTCA CAGATCTGAAAAACATTGGAAAGCAAACTGGGTTTCTGTTCTATGTGCCCGCGTGGAATACGTCTAAGATCGATCC AGAGACAGGGTTTGTCGATCTGCTGAAGCCGCGCTACGAGAACATCGCCCAAAGTCAAGCTTTCTTCGGAAAGTTT GATAAAATCTGCTATAACGCAGATAAGGACTACTTCGAATTCCACATTGATTATGCGAAGTTTACGGATAAGGCTA AGAACTCTCGTCAAACTTGGACCATTTGCTCCCATGGAGATAAGCGTTACGTATATGATAAGACTGCAAACCAAAA TAAGGGTGCGACAAAGGGGATCAACGTCAATGACGAATTAAAATCTTTGTTCGCACGTTACCATATCAACGAAAAG CAACCGAATCTGGTGATGGACATCTGTCAAAATAACGACAAGGAATTTCATAAGTCCTTGATGTACCTGTTAAAAA CTCTGTTAGCGTTACGCTATTCTAATGCCTCTTCAGATGAAGATTTTATCTTATCACCGGTCGCCAACGACGAAGG CGTCTTTTTCAATTCCGCTCTGGCGGATGACACGCAACCTCAGAATGCCGACGCGAACGGGGCGTATCACATCGCC CTGAAGGGTTTGTGGCTGCTTAATGAATTGAAGAACTCGGATGACTTAAACAAAGTCAAGCTGGCTATCGATAACC AAACATGGTTAAATTTTGCACAAAACCGTTAA SEQ ID NO: 62 ART15_Optimized3 ATGCTTTTTCAGGACTTTACACACTTGTACCCACTTTCCAAGACCGTACGTTTCGAACTGAAACCAATCGGCCGCA CACTGGAGCACATCCACGCAAAAAACTTCCTTTCTCAAGACGAGACAATGGCGGATATGTATCAAAAAGTTAAGGT AATTCTTGACGACTACCACCGCGATTTCATCGCGGACATGATGGGGGAGGTTAAGCTGACGAAGTTAGCAGAATTC TACGACGTATACCTTAAGTTCCGCAAAAACCCAAAGGACGACGAATTACAAAAGCAACTTAAGGACTTACAGGCAG TTTTACGCAAAGAGAGCGTTAAACCGATTGGTAACGGTGGCAAATATAAGGCAGGACATGATCGTCTTTTTGGGGC GAAGCTGTTCAAGGACGGTAAGGAATTAGGTGATCTTGCGAAATTTGTTATCGCACAAGAAGGTAAGTCATCACCG AAGTTGGCGCATCTTGCACATTTTGAGAAATTTTCTACGTATTTCACTGGGTTCCACGATAATCGTAAAAATATGT ACTCAGATGAGGACAAGCACACCGCCATTGCATATCGCTTAATCCATGAAAACCTTCCGCGTTTCATTGACAACTT ACAAATCTTAACTACGATCAAACAGAAACATTCCGCTCTGTATGACCAAATCATTAACGAACTTACCGCTAGCGGT TTAGATGTCTCACTGGCGTCACATCTGGATGGGTACCACAAGCTGCTTACACAGGAGGGCATCACCGCCTATAATC GTATCATTGGCGAGGTCAATGGTTATACAAACAAGCACAACCAAATCTGTCACAAATCCGAGCGTATTGCCAAACT GCGCCCGCTTCACAAACAAATTTTATCAGATGGGATGGGAGTTTCCTTTTTGCCCTCCAAATTCGCGGACGATAGC GAAATGTGCCAGGCAGTTAACGAGTTCTACCGTCATTACGCAGATGTTTTTGCTAAGGTCCAGTCGCTTTTTGATG GTTTTGATGATCATCAAAAAGATGGAATTTACGTAGAACACAAGAATTTAAACGAGCTGTCCAAGCAGGCATTCGG TGATTTTGCTTTGCTTGGCCGCGTATTAGACGGGTATTATGTCGATGTAGTGAACCCAGAATTTAACGAGCGTTTC GCCAAAGCTAAAACGGATAATGCGAAGGCAAAATTGACAAAAGAGAAGGATAAATTCATCAAAGGAGTGCACAGCC TTGCGTCCTTGGAACAGGCCATCAAGCACCATACGGCCCGTCACGATGATGAGTCCGTTCAGGCGGGCAAATTGGG GCAATACTTTAAGCACGGGTTAGCCGGAGTGGACAATCCAATTCAAAAGATTCACAACAACCATTCAACAATCAAG GGCTTTTTAGAGCGTGAGCGTCCCGCCGGAGAGCGTGCACTGCCTAAGATTAAATCCGGCAAGAATCCTGAGATGA CACAGTTGCGCCAACTGAAGGAACTGTTAGACAACGCTCTGAACGTAGCTCATTTCGCGAAGTTGTTGATGACGAA GACCACCTTGGATAACCAAGACGGGAATTTTTATGGTGAGTTCGGGGTTTTGTACGACGAGCTGGCCAAGATTCCC ACTTTGTACAATAAAGTACGCGATTACCTTTCCCAAAAGCCGTTCAGTACAGAAAAGTACAAACTTAACTTTGGTA ATCCCACGTTGCTTAATGGCTGGGATCTTAACAAAGAGAAAGACAATTTTGGAGTCATCCTTCAAAAGGACGGCTG CTACTATTTGGCATTGTTAGATAAGGCACATAAAAAAGTGTTTGACAACGCACCTAACACGGGGAAAAACGTATAC CAGAAGATGATCTATAAATTATTACCTGGCCCGAATAAGATGCTGCCCCGCGTCTTCTTCGCGAAGAGTAACTTAG ATTATTACAATCCTAGTGCTGAGTTGTTGGATAAGTACGCGCAAGGAACCCACAAGAAGGGAGACAACTTTAACTT GAAGGACTGCCACGCACTGATTGATTTTTTCAAGGCAGGCATTAACAAGCATCCTGAGTGGCAGAATTTCGGCTTC AAGTTCAGTCCAACGTCGAGCTATCGTGACTTATCTGACTTTTATCGCGAGGTAGAACCCCAAGGATATCAGGTAA AATTCGTAGATATTAACGCGGACTACATCGACGAGTTAGTGGAACAAGGCCAGTTATACCTGTTTCAGATTTACAA TAAGGATTTTTCACCTAAAGCGCACGGGAAACCGAACCTTCACACCCTTTATTTTCGTGCTTTATTCTCTGAAGAT AACCTTGCAAATCCGATTTACAAGTTAAACGGAGAGGCCCAGATCTTCTACCGCAAGGCAAGCTTAGGAATGAACG AAACAACTATCCATCGCGCAGGTGAAATCCTGGAGAACAAGAACCCTGACAACCCAAAGGAACGTGTGTTTACGTA CGACATCATTAAAGATCGCCGTTATACCCAAGACAAGTTTATGCTGCATGTTCCTATTACAATGAACTTCGGCGTT CAAGGCATGACCATTAAGGAGTTCAACAAAAAGGTAAATCAATCTATCCGTCAATACGACGACGTGAACGTCATCG GAATCGACCGCGGAGAACGTCATCTTCTGTATCTTACGGTCATCAACAGCAAGGGGGAAATCTTGGAGCAACGCAG TCTTAACGACATCACAACAGCATCAGCTAATGGCACCCAAATGACAACTCCCTACCATAAGATTCTTGACAAACGT GAAATTGAACGCCTTAATGCTCGTGTAGGTTGGGGAGAAATTGAAACGATCAAGGAGCTGAAGTCCGGGTATCTTT CTCATGTGGTCCATCAAGTATCACAATTGATGCTGAAATACAATGCGATTGTAGTCTTGGAAGACTTAAACTTCGG TTTCAAGCGCGGGCGCTTTAAAGTGGAAAAGCAAATTTACCAAAATTTTGAAAATGCACTGATCAAAAAGCTTAAT CATCTGGAGCTTAAAGACAAAGCGGACGACGAAATTGGCAGCTATAAAAACGCACTGCAACTGACGAACAATTTCA CGGATTTAAAAAATATCGGGAAACAGACGGGTTTCTTATTTTACGTCCCGGCTTGGAATACAAGCAAGATTGATCC TGAAACAGGTTTCGTCGACTTGCTTAAGCCTCGTTACGAGAACATTGCGCAATCTCAAGCATTCTTCGGTAAATTC GATAAGATTTGCTATAATGCTGATAAGGATTACTTCGAGTTCCACATCGACTATGCCAAGTTCACCGACAAAGCAA AAAATAGTCGTCAAACATGGACGATCTGCTCGCATGGGGACAAGCGTTATGTTTACGATAAGACCGCGAACCAAAA CAAAGGGGCGACGAAAGGCATTAACGTAAATGATGAGCTTAAATCATTATTCGCCCGCTACCACATCAATGAAAAA CAACCCAACCTGGTGATGGATATCTGTCAAAATAACGATAAGGAATTTCACAAGAGTTTAATGTACTTACTTAAAA CGTTGCTGGCGTTACGCTACTCGAACGCTTCGTCCGATGAGGATTTCATTCTGTCTCCAGTGGCCAATGACGAAGG CGTGTTTTTCAATAGCGCACTGGCTGACGATACGCAACCGCAGAATGCTGATGCGAACGGTGCCTACCATATCGCC TTAAAAGGCCTGTGGCTGCTGAATGAATTAAAGAATTCGGACGACCTTAACAAAGTAAAGTTAGCTATCGACAACC AGACTTGGCTTAATTTTGCTCAGAACCGTTAA SEQ ID NO: 63 ART16_WT ATGTTATTTCAAGACTTTACTCATTTATACCCCCTATCAAAAACCGTGCGTTTTGAATTAAAGCCCATTG GTAAGACATTAGAACATATCCACGCCAAAAACTTTTTGAGCCAAGATGAGACCATGGCGGACATGTACCA AAAGGTAAAGGCGATACTGGACGATTATCATCGTGATTTTATCACCAAGATGATGAGCGAGGTGACATTA ACTAAACTGCCAGAGTTTTATGAGGTTTATTTGGCATTACGAAAAAATCCCAAAGATGACACATTGCAAA AACAGCTAACCGAGATACAAACCGCTTTACGAGAAGAGGTAGTCAAGCCGATAGACAGTGGTGGCAAATA CAAGGCTGGTTATGAACGCTTATTTGGGGCAAAGCTCTTTAAAGACGGCAAAGAGCTTGGTGATTTGGCA AAATTTGTCATCGCCCAAGAGGGCGAGTCATCGCCCAAGCTTCCCCAAATTGCCCATTTTGAGAAGTTTA GTACTTACTTTACGGGCTTTCATGATAACCGCAAAAACATGTACAGTAGTGATGATAAGCATACCGCCAT TGCCTATCGTCTGATTCATGAAAACTTGCCACGTTTTATCGATAATCTACAAATACTGGTAACCATCAAA CAAAAGCACTCGGTATTGTATGACCAGATTGTAAATGAGCTAAATGCCAACGGTTTGGATGTGTCGCTGG CAAGTCATCTGGACGGCTATCACAAGCTTTTAACCCAAGAGGGTATCACGGCTTATAATAGGATAATAGG TGAAGTGAATAGTTATACGAATAAGCATAATCAAATTTGCCACAAATCTGAACGTATCGCCAAATTACGC CCCCTGCACAAACAAATCCTAAGCGACGGCATGGGCGTGTCATTTTTGCCAAGCAAATTTGCCGACGATA GCGAGATGTGCCAAGCGGTCAATGAATTTTACCGCCATTATGCCCATGTTTTTGCCAAGGTGCAAAGCTT ATTTGATAGATTTGATGACTATCAAAAGGACGGCATTTATGTTGAGCATAAAAATTTAAATGAGCTATCT AAGCAGGCATTTGGCGATTTTGCTTTGTTGGGTCGGGTGTTAGACGGCTATTATGTGGATGTGGTGAATC CAGAATTTAACGATAAATTTGCCAAAGCCAAAACCGACAATGCCAAAGAAAAACTGACAAAAGAAAAAGA CAAATTCATCAAAGGCGTGCATTCCTTGGCAAGTCTTGAACAGGCGATAGAGCATTATATTGCTGGGCAT GATGATGAGTCTGTGCAGGCGGGCAAGCTTGGGCAGTATTTCAAACATGGCTTGGCGGGGGTGGACAATC CAATCCAAAAAATACACAACAGCCACAGCACCATTAAGGGGTTTTTGGAGCGTGAACGCCCAGCAGGCGA GCGAACATTGCCCAAAATCAAATCAGATAAAAGTCTTGAAATGACACAGTTAAGACAACTAAAAGAACTG CTAGACAACGCCCTAAATGTGGTGCATTTTGCTAAGTTATTAACGACCAAAACCACGCTAGATAACCAAG ACGGCAATTTTTATGGTGAGTTTGGGGCATTGTATGATGAGCTTGCCAAGATTGCCACGCTTTATAACAA AGTGCGTGATTATCTGTCCCAAAAGCCATTTAGCACCGAAAAATACAAATTAAACTTTGGCAACCCGACA TTATTAAACGGTTGGGATTTGAATAAAGAAAAAGATAATTTTGGGGTTATCTTGCAAAAAGACGGTTGTT ATTATTTGGCGTTATTGGATAAAGCTCATAAAAAAGTATTTGATAATGCTCCAAATACAGGCAAAAGTGT TTATCAAAAAATGGTTTATAAATTATTGCCTGGCCCTAATAAAATGCTACCCAAAGTGTTTTTTGCCAAG AGTAATTTGGATTATTATAATCCTTCTGCAGAGCTACTGGATAAATATGCACAAGGCACGCACAAAAAAG GCGATAATTTTAATCTAAAAGATTGTCATGCGTTGATTGATTTTTTTAAGGCGAGTATTAACAAACATCC AGAATGGCAACATTTTGGTTTTGAATTTTCGCTAACCAGTAGCTATCAGGATTTAAGTGATTTTTATAGA GAAGTTGAACCACAAGGTTATCAAGTAAAATTTGTGGATATTGATGCCGATTATATTGATGAGTTGGTTG AGCAGGGTCAGTTGTATTTATTCCAGATTTATAATAAAGATTTCTCGCCCAAGGCTCATGGTAAACCTAA TTTACATACTTTGTATTTTAAGGCGTTATTTAGTGAGGATAATCTTGCCAATCCAATTTATAAATTAAAT GGCGAGGCGGAGATATTTTATCGCAAGGCATCTTTGGATATGAATGAAACCACCATTCATCGTGCAGGCG AGGTATTAGAAAATAAAAATCCCGATAATCCCAAAGAGCGTCAATTTGTCTATGACATCATCAAAGACAA ACGTTATACCCAAGATAAGTTTATGCTACACGTGCCTATTACCATGAATTTTGGTGTGCAGGGCATGACG ATTAAAGAATTTAATAAAAAAGTTAATCAAAGCATACAACAATATGATGAGGTGAATGTGATTGGCATAG ACCGTGGCGAGCGACATCTGCTATATCTGACCGTGATTAACAGCAAAGGTGAAATCTTAGAACAGCGTAG TCTCAATGACATCATCACCACATCGGCAAACGGCACACAAATGACCACGCCTTATCATAAGATACTGGAC AAAAGGGAGATAGAACGCCTAAATGCTCGTGTCGGTTGGGGTGAAATTGAGACCATTAAAGAGCTAAAAT CGGGCTATCTAAGCCATGTGGTACATCAAATCAGTCAGCTTATGCTTAAATATAACGCCATTGTGGTGTT GGAAGATTTGAATTTTGGGTTTAAGCGTGGTCGCTTTAAGGTGGAAAAACAAATTTACCAAAACTTTGAA AACGCCCTAATCAAAAAACTCAACCATTTGGTATTAAAAGACAAGGCAGATAATGAGATTGGCTCATACA AAAATGCCTTGCAACTGACCAATAATTTTACCGACCTAAAAAGCATTGGCAAGCAAACAGGCTTTTTATT CTATGTGCCTGCATGGAATACCAGTAAAATAGACCCTGTAACGGGCTTTGTGGATTTGTTAAAACCACGT TATGAAAATATCGCTCAATCGCAAGCGTTTTTTGATAAGTTTGATAAGATTTGTTATAACGCAGACAAGG GTTATTTTGAATTTCATATTGATTATGCCAAATTCACTGACAAAGCCAAAAATTCTCGCCAAATATGGAC GATTTGTTCGCATGGCGATAAACGCTATGTGTATGACAAAACCGCCAACCAAAATAAAGGGGCGACCATT GGCATTAATGTCAATGATGAATTAAAATCGTTATTTGCTCGTTATCGCATCAATGACAAACAGCCAAATC TGGTCATGGATATTTGCCAAAATAACGATAAAGAATTTCATAAATCGCTAACGTATCTGTTAAAGGCATT GCTTGCATTACGATATAGTAATGCCAGTAGTGATGAAGATTTTATTTTATCGCCTGTGGCAAATGACAAG GGTGTGTTTTTTAATTCGGCGTTGGCAGATGATACACAGCCACAAAATGCGGACGCCAATGGTGCGTACC ATATCGCATTAAAGGGGCTGTGGCTATTAAACGAATTAAAAAACAGCGATGATTTGGATAAAGTCAAACT TGCCATTGATAATCAAACATGGCTAAACTTCGCTCAAAACCGCTAA SEQ ID NO: 64 ART16_Optimized1 ATGTTGTTCCAGGACTTCACTCATCTTTACCCATTATCAAAAACGGTGCGCTTTGAACTGAAGCCTATTGGTAAAA CACTTGAACACATTCACGCAAAGAATTTTCTTTCTCAAGACGAAACCATGGCTGATATGTATCAGAAGGTAAAGGC CATCTTAGATGATTACCATCGCGATTTCATCACGAAAATGATGAGCGAGGTTACCTTGACCAAGTTACCCGAATTT TATGAGGTGTACCTTGCCTTGCGCAAGAACCCTAAAGACGATACTTTACAGAAACAGCTTACGGAAATTCAGACTG CATTGCGCGAGGAGGTGGTTAAACCGATCGATAGCGGAGGGAAGTACAAGGCCGGTTACGAACGTCTTTTCGGGGC GAAATTATTTAAGGATGGAAAAGAACTGGGAGATTTGGCAAAATTCGTGATTGCACAGGAAGGGGAATCCAGCCCA AAGCTGCCTCAGATCGCTCATTTCGAGAAGTTCTCTACGTATTTCACAGGATTCCACGACAACCGTAAAAATATGT ATTCGAGTGATGATAAGCACACGGCCATTGCCTACCGTTTAATCCACGAGAATTTACCCCGCTTTATTGACAATTT ACAAATCTTGGTGACGATTAAGCAAAAACACTCTGTTTTGTATGATCAGATCGTAAACGAATTGAACGCGAATGGT TTGGACGTAAGCTTAGCGAGCCACCTTGATGGATACCATAAATTATTAACACAAGAAGGCATTACGGCCTACAATC GCATTATTGGAGAGGTTAATTCCTACACTAACAAGCACAATCAGATCTGTCACAAATCTGAGCGTATCGCTAAGCT TCGCCCCTTGCACAAACAGATTTTAAGCGACGGGATGGGCGTCTCTTTCTTACCTTCCAAGTTTGCTGACGATTCT GAGATGTGTCAGGCAGTTAACGAGTTCTACCGCCATTACGCCCATGTCTTTGCTAAGGTACAGAGTTTATTCGACC GCTTCGATGATTACCAAAAGGATGGCATCTACGTGGAACACAAAAACTTAAACGAGTTGTCTAAACAAGCATTTGG AGATTTTGCCTTACTGGGGCGCGTTCTGGACGGTTACTATGTTGATGTCGTCAATCCTGAATTTAACGATAAATTC GCGAAGGCGAAAACAGACAACGCGAAGGAAAAGCTGACAAAGGAAAAAGATAAGTTTATTAAGGGTGTTCACTCCC TTGCGTCGTTGGAGCAAGCAATCGAACACTATATCGCGGGCCATGACGACGAATCCGTGCAAGCTGGCAAATTAGG CCAATATTTTAAACACGGCTTGGCGGGCGTTGATAACCCTATCCAGAAAATTCACAATAGCCACTCAACCATTAAG GGCTTCTTAGAACGTGAACGTCCTGCCGGCGAGCGTACCCTGCCGAAAATTAAGTCTGATAAATCCTTAGAGATGA CGCAGTTACGCCAGCTGAAGGAGTTGCTTGACAACGCTCTGAACGTTGTGCACTTTGCAAAATTACTTACTACTAA GACTACGCTTGATAACCAGGATGGAAATTTCTATGGCGAATTTGGAGCTTTATATGATGAATTAGCAAAAATTGCG ACCCTGTATAACAAAGTTCGTGATTACTTGAGTCAAAAACCATTTTCTACCGAGAAGTACAAATTGAACTTTGGAA ATCCAACGTTATTAAATGGGTGGGATCTGAACAAAGAGAAGGATAATTTCGGAGTTATTCTTCAGAAGGATGGATG CTATTACCTGGCGTTACTTGATAAGGCGCACAAAAAGGTGTTCGACAACGCTCCTAACACTGGAAAATCGGTTTAT CAGAAGATGGTCTACAAGTTACTTCCGGGACCGAATAAAATGCTGCCGAAAGTTTTTTTTGCAAAGTCTAACCTTG ACTATTACAATCCATCCGCAGAGCTTTTAGATAAATACGCCCAGGGCACCCACAAAAAGGGTGACAATTTTAATTT AAAGGACTGCCACGCACTTATCGACTTTTTCAAGGCTTCAATCAACAAGCATCCAGAGTGGCAGCACTTTGGCTTC GAGTTCTCTTTGACATCTTCGTATCAGGATCTTTCTGATTTCTATCGTGAAGTTGAACCACAGGGTTATCAGGTTA AATTCGTTGACATTGACGCCGACTACATCGATGAGCTGGTGGAGCAGGGTCAGTTATACCTGTTCCAAATCTATAA TAAAGATTTCAGTCCGAAAGCACATGGTAAGCCCAATCTTCATACGCTTTATTTCAAGGCTCTGTTTTCAGAAGAC AACCTTGCAAACCCAATTTACAAATTGAACGGTGAAGCGGAGATTTTTTACCGTAAAGCCAGTTTAGATATGAACG AAACCACAATTCACCGCGCAGGTGAAGTGTTAGAGAATAAGAATCCTGATAACCCGAAGGAACGCCAGTTCGTCTA TGACATTATCAAAGACAAGCGCTATACCCAGGACAAATTTATGTTGCACGTGCCAATCACCATGAATTTCGGCGTG CAGGGGATGACTATTAAAGAATTCAACAAGAAGGTCAACCAGAGTATCCAACAATATGACGAAGTGAACGTTATTG GCATTGATCGCGGCGAGCGCCACCTTTTGTACCTGACGGTAATTAATTCGAAGGGAGAAATTCTGGAACAACGTTC TCTGAACGATATCATTACAACATCGGCGAATGGGACGCAGATGACGACCCCTTACCACAAGATTCTTGATAAACGT GAAATTGAACGCCTTAACGCCCGTGTTGGATGGGGTGAGATTGAAACCATTAAGGAATTGAAAAGTGGGTACCTGT CCCATGTTGTACACCAGATCAGCCAATTGATGTTGAAATATAACGCAATTGTAGTGTTAGAGGATTTAAACTTCGG GTTTAAGCGTGGGCGTTTCAAGGTAGAAAAGCAAATTTACCAGAACTTTGAGAATGCTTTAATTAAGAAACTTAAT CACTTGGTTTTGAAGGACAAGGCCGACAACGAGATCGGGTCCTACAAAAACGCGTTGCAATTAACCAATAACTTTA CGGACTTGAAAAGTATTGGGAAGCAGACCGGCTTTTTATTCTACGTGCCAGCTTGGAACACATCCAAGATTGATCC GGTTACGGGTTTTGTAGACCTGTTAAAACCTCGCTATGAAAATATTGCTCAATCCCAAGCTTTCTTCGACAAGTTC GATAAAATCTGCTACAATGCAGATAAAGGGTATTTTGAGTTTCATATCGATTATGCCAAATTCACAGATAAAGCTA AAAATAGTCGCCAAATCTGGACAATCTGTAGTCATGGGGACAAGCGTTACGTATACGACAAGACTGCAAACCAGAA TAAAGGTGCCACAATTGGGATCAACGTGAATGACGAGCTTAAATCCTTATTTGCACGTTACCGCATCAATGATAAG CAACCAAATCTGGTCATGGATATTTGTCAAAACAACGACAAAGAGTTCCATAAATCTTTGACCTACTTGCTTAAAG CCCTGTTGGCCTTGCGCTATAGCAACGCGTCAAGCGATGAGGATTTCATCCTTAGTCCAGTGGCCAACGATAAGGG AGTCTTTTTCAATAGCGCTCTTGCTGATGATACTCAACCTCAGAATGCCGACGCGAACGGAGCGTACCATATTGCA CTTAAAGGCCTGTGGCTTTTGAATGAATTGAAAAACTCAGATGATCTGGATAAGGTAAAATTGGCAATTGACAATC AAACATGGCTGAACTTTGCTCAAAACCGCTAA SEQ ID NO: 65 ART16_Optimized2 ATGCTTTTCCAAGATTTTACTCATTTATACCCGTTAAGCAAAACGGTACGTTTCGAACTTAAACCTATCGGGAAAA CGCTTGAACACATCCATGCCAAGAACTTCCTGAGTCAGGATGAAACGATGGCGGACATGTACCAAAAGGTAAAGGC CATTTTAGATGACTATCATCGTGATTTTATTACCAAGATGATGTCTGAGGTAACTTTAACGAAATTACCGGAATTT TATGAGGTCTATCTTGCCTTACGTAAAAACCCGAAAGATGACACATTGCAAAAACAGTTAACGGAGATCCAAACCG CTCTGCGTGAAGAAGTCGTGAAGCCCATTGATTCGGGAGGTAAGTACAAGGCGGGATACGAACGCCTTTTCGGAGC CAAACTGTTTAAGGACGGGAAAGAACTTGGCGACTTGGCCAAATTCGTTATCGCACAAGAAGGCGAAAGCTCTCCA AAATTACCCCAAATTGCCCATTTCGAGAAATTTAGTACCTACTTTACGGGTTTTCACGACAACCGTAAAAATATGT ACAGCTCTGATGATAAACACACGGCGATTGCATATCGTTTGATCCACGAGAATCTTCCCCGTTTCATTGACAACCT TCAAATTCTGGTGACAATTAAACAAAAGCATTCGGTCTTATATGATCAGATCGTTAATGAATTAAATGCTAATGGA CTTGATGTATCGTTAGCTAGCCATTTAGATGGTTATCATAAATTGCTTACGCAGGAGGGAATTACTGCATACAATC GTATCATTGGGGAAGTGAATAGTTACACCAATAAACATAACCAGATTTGTCACAAAAGTGAGCGTATTGCGAAACT GCGTCCGCTTCATAAACAAATTTTGAGTGATGGCATGGGGGTGTCTTTCTTACCGAGTAAGTTTGCTGATGACAGT GAGATGTGCCAAGCTGTCAACGAGTTTTACCGTCACTATGCTCATGTGTTTGCAAAAGTACAGTCCCTTTTCGATC GCTTCGATGACTATCAAAAGGATGGGATCTACGTGGAACACAAGAACTTGAATGAGTTAAGCAAACAGGCCTTCGG AGATTTTGCACTGTTGGGGCGCGTTTTAGACGGATACTATGTAGACGTTGTTAACCCTGAGTTTAATGATAAGTTC GCGAAAGCAAAAACGGACAACGCCAAAGAAAAATTGACTAAGGAAAAGGACAAATTTATTAAGGGAGTACATTCTC TTGCGTCCTTGGAACAAGCGATCGAACATTACATCGCGGGCCATGATGACGAGAGTGTCCAAGCTGGTAAACTTGG ACAGTATTTTAAACACGGTCTGGCCGGTGTTGATAATCCGATCCAGAAAATTCATAATTCGCACTCGACCATTAAA GGATTTCTTGAACGTGAGCGTCCCGCTGGCGAGCGCACCTTGCCTAAGATCAAGTCTGATAAGTCTCTTGAAATGA CTCAATTGCGTCAACTGAAAGAACTTCTGGACAACGCGTTGAACGTCGTACATTTCGCCAAGCTGTTGACCACGAA GACTACGCTTGATAATCAGGACGGGAACTTCTATGGCGAGTTCGGAGCTCTGTACGATGAGTTGGCGAAAATCGCG ACTTTATATAATAAAGTTCGTGATTATTTGTCCCAAAAGCCGTTTAGTACGGAAAAGTACAAGCTGAATTTCGGCA ATCCCACTCTTCTGAACGGCTGGGATTTAAACAAAGAAAAAGACAACTTCGGGGTTATCTTACAAAAGGATGGCTG CTATTACCTGGCATTACTTGATAAGGCACATAAAAAAGTATTTGACAACGCACCAAACACCGGCAAAAGCGTGTAC CAGAAAATGGTATATAAATTGCTTCCCGGTCCTAACAAGATGTTACCGAAGGTTTTTTTTGCAAAATCCAATCTGG ACTATTACAATCCGAGCGCAGAGCTTCTGGACAAGTACGCCCAGGGTACGCATAAAAAAGGCGATAATTTCAACTT GAAGGACTGTCATGCGCTGATCGACTTTTTTAAGGCTAGTATTAATAAACACCCCGAGTGGCAACATTTTGGGTTT GAATTCAGTCTGACAAGTTCTTACCAAGACTTGTCGGACTTTTATCGTGAAGTAGAGCCACAAGGTTACCAAGTAA AATTCGTGGACATCGATGCTGACTACATCGATGAACTTGTCGAGCAGGGGCAGTTGTATCTTTTTCAAATTTATAA TAAAGATTTTAGTCCCAAAGCGCATGGAAAGCCAAACTTGCATACATTGTACTTTAAAGCATTATTTTCGGAAGAC AACCTGGCCAATCCTATCTACAAATTAAACGGAGAAGCGGAAATTTTTTACCGCAAGGCATCTTTGGACATGAACG AAACAACGATCCATCGTGCTGGGGAGGTCCTTGAGAACAAAAACCCCGACAACCCCAAAGAACGTCAATTCGTTTA CGATATCATCAAAGACAAGCGTTATACCCAAGATAAGTTTATGTTGCATGTTCCAATTACGATGAATTTTGGGGTA CAGGGGATGACAATCAAGGAATTTAACAAGAAAGTGAATCAATCAATCCAACAGTATGATGAAGTGAACGTCATTG GTATTGACCGCGGAGAACGCCATCTGTTATACCTTACTGTCATTAACTCAAAGGGAGAAATTTTAGAGCAACGTAG CTTGAACGATATCATTACGACGTCCGCGAACGGAACCCAAATGACCACACCATATCACAAGATTTTAGATAAACGT GAGATCGAACGTCTTAATGCTCGCGTCGGGTGGGGAGAGATTGAAACGATCAAAGAGTTAAAATCTGGATATTTAT CTCATGTTGTACACCAGATCAGCCAATTGATGTTAAAATATAATGCTATCGTGGTTCTGGAAGATCTGAACTTTGG GTTTAAGCGTGGACGTTTTAAGGTTGAAAAACAAATCTACCAAAACTTCGAGAATGCACTGATTAAAAAGTTGAAC CACTTAGTGTTAAAGGATAAGGCCGACAACGAAATTGGCTCTTACAAGAATGCGCTTCAGCTGACGAATAATTTCA CCGATTTGAAATCAATCGGCAAACAGACCGGATTCCTGTTCTACGTCCCGGCTTGGAACACGTCCAAGATCGATCC TGTGACTGGTTTTGTTGACTTATTGAAACCCCGCTATGAAAACATCGCGCAATCTCAAGCGTTCTTTGATAAGTTC GATAAAATCTGCTATAATGCAGACAAAGGATATTTCGAGTTCCATATTGATTATGCAAAATTTACTGATAAAGCGA AGAACAGCCGCCAGATCTGGACAATTTGCTCACACGGTGATAAACGTTATGTTTACGACAAAACCGCTAATCAAAA TAAAGGAGCCACAATCGGCATTAACGTTAACGACGAGTTGAAGTCCCTTTTTGCACGTTATCGCATTAACGACAAA CAGCCAAATCTTGTCATGGATATTTGTCAAAATAATGACAAAGAATTTCATAAGAGCCTTACGTACCTTTTGAAAG CTTTATTAGCATTACGCTATAGTAATGCCTCATCTGATGAGGATTTCATTCTTAGCCCGGTTGCTAACGATAAAGG GGTTTTTTTCAATAGTGCTCTGGCAGACGACACACAACCTCAAAACGCTGATGCTAATGGAGCTTATCACATTGCG TTGAAGGGACTTTGGCTGTTAAATGAATTGAAAAATTCTGACGACTTGGATAAGGTGAAGTTAGCAATTGACAACC AAACGTGGTTAAACTTTGCGCAGAATCGTTAA SEQ ID NO: 66 ART16_Optimized3 ATGCTTTTTCAGGATTTCACTCATTTATACCCATTGAGTAAAACAGTCCGTTTCGAGTTGAAACCCATTGGTAAAA CTCTTGAGCACATTCACGCTAAGAATTTCTTATCTCAAGACGAGACCATGGCCGATATGTACCAAAAAGTAAAGGC TATCTTAGACGACTATCACCGCGACTTTATCACAAAGATGATGTCTGAGGTAACTTTGACAAAGTTACCCGAATTT TACGAAGTGTATCTTGCCCTGCGTAAAAACCCAAAAGATGATACTTTGCAAAAACAGTTAACAGAAATCCAAACCG CATTGCGCGAAGAAGTGGTCAAACCGATCGACAGCGGTGGTAAATACAAAGCTGGTTATGAGCGTTTGTTTGGTGC TAAACTTTTTAAGGATGGCAAGGAACTGGGAGACCTTGCGAAGTTCGTAATTGCCCAAGAAGGAGAGAGTAGTCCA AAATTGCCTCAAATCGCGCACTTCGAAAAATTCTCGACGTATTTTACTGGCTTTCACGACAACCGTAAAAACATGT ACTCGTCGGACGATAAACATACGGCTATTGCATATCGTTTAATCCATGAAAATTTGCCGCGTTTCATCGATAATTT ACAAATCCTTGTTACTATTAAACAAAAGCACAGTGTACTGTACGACCAAATTGTGAATGAATTAAATGCGAATGGT CTTGACGTTTCGTTAGCCTCCCACCTTGATGGTTACCACAAGTTGCTGACCCAGGAGGGTATTACAGCATATAATC GCATCATTGGTGAGGTAAATTCGTATACTAACAAGCACAATCAAATCTGCCATAAATCAGAACGTATTGCCAAATT ACGCCCTCTGCATAAACAGATCTTAAGCGATGGTATGGGCGTCAGTTTTTTGCCGTCGAAATTTGCAGATGACAGC GAGATGTGTCAAGCGGTTAACGAATTCTACCGCCACTACGCCCATGTATTTGCAAAAGTGCAAAGCCTTTTCGACC GCTTTGATGATTACCAAAAAGATGGCATTTACGTAGAGCACAAAAACTTAAATGAGTTATCAAAGCAAGCTTTTGG TGATTTTGCATTGTTGGGTCGCGTCCTTGATGGCTATTACGTGGACGTCGTCAATCCTGAGTTTAATGATAAGTTT GCAAAAGCAAAGACTGACAACGCAAAGGAAAAACTTACTAAGGAGAAGGATAAGTTTATTAAAGGGGTACATTCTT TAGCATCATTGGAACAGGCGATCGAACATTATATCGCGGGTCATGACGATGAGAGTGTCCAAGCTGGCAAGCTGGG GCAATACTTCAAGCACGGCCTGGCTGGCGTAGACAACCCAATTCAGAAAATTCACAACAGCCATAGTACTATTAAA GGCTTTTTGGAACGTGAGCGTCCTGCGGGAGAACGCACATTACCGAAGATTAAATCAGATAAATCATTGGAGATGA CTCAGTTACGCCAACTGAAAGAATTGTTGGACAATGCATTGAACGTGGTCCATTTTGCGAAATTATTAACGACTAA GACGACGCTGGACAATCAAGATGGTAATTTTTATGGTGAATTTGGAGCACTGTACGATGAGTTGGCCAAAATTGCA ACACTGTATAATAAAGTACGCGACTACTTGTCCCAGAAGCCCTTTTCAACGGAGAAGTACAAACTGAACTTTGGTA ACCCTACCTTGTTAAACGGCTGGGATTTGAATAAGGAGAAGGACAATTTCGGTGTCATCCTGCAGAAAGATGGATG CTACTATCTGGCGCTTCTGGACAAAGCTCATAAAAAGGTCTTCGACAATGCTCCGAATACTGGAAAGTCGGTGTAC CAAAAAATGGTTTACAAACTTCTGCCCGGTCCCAATAAGATGTTGCCCAAGGTATTTTTCGCTAAGTCCAATTTGG ATTACTACAATCCCTCTGCGGAATTATTAGACAAATACGCTCAGGGCACACACAAAAAGGGGGACAACTTCAATCT TAAGGATTGCCACGCATTAATCGACTTTTTCAAAGCGTCGATCAATAAACATCCAGAGTGGCAACACTTTGGATTC GAATTCAGCTTGACGTCAAGTTACCAAGACCTTTCCGACTTCTATCGTGAAGTCGAACCCCAAGGTTACCAAGTTA AGTTCGTGGATATTGATGCGGACTACATTGACGAGCTGGTGGAACAAGGCCAGCTTTATTTGTTCCAAATCTACAA TAAAGACTTCAGCCCGAAAGCGCATGGGAAGCCAAATCTTCACACATTATACTTTAAGGCTCTTTTTTCGGAGGAC AACTTGGCTAATCCCATTTATAAATTAAATGGTGAGGCTGAAATCTTCTACCGCAAGGCCAGTTTGGATATGAACG AAACGACCATCCACCGTGCCGGGGAGGTATTAGAAAACAAAAACCCGGATAACCCGAAAGAGCGTCAGTTCGTTTA TGATATCATCAAAGACAAGCGTTACACTCAAGATAAATTCATGCTGCACGTTCCTATTACGATGAACTTTGGCGTT CAGGGCATGACTATTAAAGAATTCAATAAGAAGGTGAACCAGTCTATTCAACAGTACGACGAGGTAAATGTTATCG GTATCGACCGCGGGGAACGCCATCTTTTATACCTTACCGTTATTAATTCCAAGGGGGAAATCCTTGAGCAACGTAG TCTTAACGATATCATTACTACGTCCGCGAATGGGACGCAAATGACGACACCATATCATAAGATCCTGGACAAGCGT GAGATCGAACGTTTAAATGCTCGCGTGGGTTGGGGCGAAATTGAAACGATTAAAGAGCTGAAAAGCGGTTACCTTT CGCACGTTGTGCATCAAATCTCACAATTAATGTTAAAATACAATGCTATTGTCGTTTTAGAGGATCTTAACTTTGG TTTCAAGCGTGGTCGTTTTAAAGTAGAAAAGCAAATTTATCAAAACTTCGAGAATGCGCTTATTAAGAAATTAAAC CACCTGGTCCTGAAGGATAAAGCGGACAATGAGATCGGCAGTTACAAAAACGCATTGCAGCTGACGAATAATTTCA CAGATCTGAAATCAATTGGAAAGCAGACCGGGTTTTTGTTTTACGTTCCGGCATGGAACACCTCGAAAATTGACCC CGTAACGGGGTTTGTTGATTTGTTAAAGCCCCGCTACGAAAATATTGCTCAGTCACAAGCTTTTTTTGACAAATTT GACAAAATCTGTTACAACGCTGACAAAGGTTATTTCGAATTCCACATCGATTATGCGAAATTTACGGATAAAGCGA AAAATTCGCGTCAGATCTGGACAATCTGTTCGCATGGTGATAAGCGCTATGTATATGACAAAACAGCAAACCAGAA CAAGGGAGCTACAATTGGGATTAATGTTAACGACGAGCTGAAGTCACTTTTTGCGCGCTACCGTATTAACGATAAG CAACCGAACCTTGTTATGGACATCTGCCAAAACAATGACAAAGAATTCCACAAGTCATTGACGTACCTGTTGAAAG CTTTACTGGCACTGCGTTATTCCAACGCTTCCTCGGACGAAGATTTCATTTTGTCGCCTGTAGCGAATGACAAAGG CGTGTTCTTTAACTCTGCTTTGGCAGATGATACACAACCTCAAAATGCGGACGCCAACGGTGCCTACCATATCGCG CTGAAGGGTTTGTGGTTATTAAATGAGCTTAAAAACAGTGATGATTTGGATAAGGTAAAGTTAGCCATCGATAATC AGACTTGGTTGAATTTTGCTCAAAACCGTTAA SEQ ID NO: 67 ART17_WT ATGTTATTTCAAGACTTTACTCATTTATACCCCCTATCAAAAACCGTGCGTTTTGAATTAAAGCCCATTG GTAAGACATTAGAACATATCCACGCCAAAAACTTTTTGAGCCAAGATGAGACCATGGCGGACATGTACCA AAAGGTAAAGGCGATACTGGACGATTATCATCGTGATTTTATCACCAAGATGATGAGCGAGGTGACATTA ACTAAACTGCCAGAGTTTTATGAGGTTTATTTGGCATTACGAAAAAATCCCAAAGATGACACATTGCAAA AACAGCTAACCGAGATACAAACCGCTTTACGAGAAGAGGTAGTCAAGCCGATAGACAGTGGTGGCAAATA CAAGGCTGGTTATGAACGCTTATTTGGGGCAAAGCTCTTTAAAGACGGCAAAGAGCTTGGTGATTTGGCA AAATTTGTCATCGCCCAAGAGGGCGAGTCATCGCCCAAGCTTCCCCAAATTGCCCATTTTGAGAAGTTTA GTACTTACTTTACGGGCTTTCATGATAACCGCAAAAACATGTACAGTAGTGATGATAAGCATACCGCCAT TGCCTATCGTCTGATTCATGAAAACTTGCCACGTTTTATCGATAATCTACAAATACTGGTAACCATCAAA CAAAAGCACTCGGTATTGTATGACCAGATTGTAAATGAGCTAAATGCCAACGGTTTGGATGTGTCGCTGG CAAGTCATCTGGACGGCTATCACAAGCTTTTAACCCAAGAGGGTATCACGGCTTATAATAGGATAATAGG TGAAGTGAATAGTTATACGAATAAGCATAATCAAATTTGCCACAAATCTGAACGTATCGCCAAATTACGC CCCCTGCACAAACAAATCCTAAGCGACGGCATGGGCGTGTCATTTTTGCCAAGCAAATTTGCCGACGATA GCGAGATGTGCCAAGCGGTCAATGAATTTTACCGCCATTATGCCCATGTTTTTGCCAAGGTGCAAAGCTT ATTTGATAGATTTGATGACTATCAAAAGGACGGCATTTATGTTGAGCATAAAAATTTAAATGAGCTATCT AAGCAGGCATTTGGCGATTTTGCTTTGTTGGGTCGGGTGTTAGACGGCTATTATGTGGATGTGGTGAATC CAGAATTTAACGATAAATTTGCCAAAGCCAAAACCGACAATGCCAAAGAAAAACTGACAAAAGAAAAAGA CAAATTCATCAAAGGCGTGCATTCCTTGGCAAGTCTTGAACAGGCGATAGAGCATTATATTGCTGGGCAT GATGATGAGTCTGTGCAGGCGGGCAAGCTTGGGCAGTATTTCAAACATGGCTTGGCGGGGGTGGACAATC CAATCCAAAAAATACACAACAGCCACAGCACCATTAAGGGGTTTTTGGAGCGTGAACGCCCAGCAGGCGA GCGAACATTGCCCAAAATCAAATCAGATAAAAGTCTTGAAATGACACAGTTAAGACAACTAAAAGAACTG CTAGACAACGCCCTAAATGTGGTGCATTTTGCTAAGTTATTAACGACCAAAACCACGCTAGATAACCAAG ACGGCAATTTTTATGGTGAGTTTGGGGCATTATATGATGAGCTTGCCAAGATTGCCACGCTTTATAACAA AGTGCGTGATTATCTGTCCCAAAAGCCATTTAGCACCGAAAAATACAAATTAAACTTTGGCAACCCGACA TTATTAAACGGTTGGGATTTGAATAAAGAAAAAGATAATTTTGGGGTTATCTTGCAAAAAGACGGTTGTT ATTATTTGGCGTTATTGGATAAAGCTCATAAAAAAGTATTTGATAATGCTCCAAATACAGGCAAAAGTGT TTATCAAAAAATGGTTTATAAATTATTGCCTGGCTCTAATAAAATGCTACCCAAAGTGTTTTTTGCCAAG AGTAATTTGGATTATTATAACCCTTCTGCAGAGCTACTGGATAAATATGCACAAGGCACGCACAAAAAAG GCGATAATTTTAATCTAAAAGATTGTCATGCGTTGATTGATTTTTTTAAGGCGAGTATTAACAAACATCC AGAATGGCAACATTTTGGTTTTGAATTTTCGCTAACCAGTAGCTATCAGGATTTAAGTGATTTTTATAGA GAAGTTGAACCACAAGGTTATCAAGTAAAATTTGTGGATATTGATGCCGATTATATTGATGAGTTGGTTG AGCAGGGTCAGTTGTATTTATTCCAGATTTATAATAAAGATTTCTCGCCCAAGGCTCATGGTAAACCTAA TTTACATACTTTGTATTTTAAGGCGTTATTTAGTGAGGATAATCTTGCCAATCCAATTTATAAATTAAAT GGCGAGGCGGAGATATTTTATCGCAAGGCATCTTTGGATATGAATGAAACCACCATTCATCGTGCAGGCG AGGTATTAGAAAATAAAAATCCCGATAATCCCAAAGAGCGTCAATTTGTCTATGACATCATCAAAGACAA ACGTTATACCCAAGATAAGTTTATGCTACACGTGCCTATTACCATGAATTTTGGTGTGCAGGGTATGACG ATTAAAGAATTTAATAAAAAAGTTAATCAAAGCATACAACAATATGATGAGGTGAATGTGATTGGCATAG ACCGTGGCGAGCGACATCTGCTATATCTGACCGTGATTAACAGCAAAGGTGAAATCTTAGAACAGCGTAG TCTCAATGACATCATCACCACATCGGCAAACGGCACACAAATGACCACGCCTTATCATAAGATACTGGAC AAAAGGGAGATAGAACGCCTAAATGCTCGTGTCGGTTGGGGTGAAATTGAGACCATTAAAGAGCTAAAAT CGGGCTATCTAAGCCATGTGGTACATCAAATCAGTCAGCTTATGCTTAAATATAACGCCATTGTGGTGTT GGAAGATTTGAATTTTGGGTTTAAGCGTGGTCGCTTTAAGGTGGAAAAACAAATTTACCAAAACTTTGAA AACGCCCTAATCAAAAAACTCAACCATTTGGTATTAAAAGACAAGGCAGATAATGAGATTGGCTCATACA AAAATGCCTTGCAACTGACCAATAATTTTACCGACCTAAAAAGCATTGGCAAGCAAACAGGCTTTTTATT CTATGTGCCTGCATGGAATACCAGTAAAATAGACCCTGTAACGGGCTTTGTGGATTTGTTAAAACCACGT TATGAAAATATCGCTCAATCGCAAGCGTTTTTTGATAAGTTTGATAAGATTTGTTATAACGCAGACAAGG GTTATTTTGAATTTCATATTGATTATGCCAAATTCACTGACAAAGCCAAAAATTCTCGCCAAATATGGAC GATTTGTTCGCATGGCGATAAACGCTATGTGTATGACAAAACCGCCAACCAAAATAAAGGGGCGACCATT GGCATTAATGTCAATGATGAATTAAAATCGTTATTTGCTCGTTATCGCATCAATGACAAACAGCCAAATC TGGTCATGGATATTTGCCAAAATAACGATAAAGAATTTCATAAATCGCTAACGTATCTGTTAAAGGCATT GCTTGCATTACGATATAGTAATGCCAGTAGTGATGAAGATTTTATTTTATCGCCTGTGGCAAATGACAAG GGTGTGTTTTTTAATTCGGCATTGGCAGATGATACACAGCCACAAAATGCGGACGCCAATGGTGCGTACC ATATCGCATTAAAGGGGCTGTGGCTATTAAACGAATTAAAAAACAGCGATGATTTGGATAAAGTCAAACT TGCCATTGATAATCAAACATGGCTAAACTTCGCTCAAAACCGCTAA SEQ ID NO: 68 ART17_Optimizedl ATGTTATTCCAAGATTTCACACATCTTTATCCACTGTCGAAGACAGTCCGCTTTGAGTTAAAGCCTATTGGAAAGA CCCTTGAACACATTCATGCGAAGAATTTCTTATCACAAGACGAAACAATGGCAGATATGTATCAAAAAGTGAAAGC TATCTTAGACGACTATCATCGCGATTTTATCACGAAGATGATGAGTGAAGTCACCTTGACCAAGTTACCTGAGTTT TACGAGGTTTATCTGGCCTTACGCAAGAATCCAAAAGACGACACCCTGCAAAAACAGTTAACCGAGATTCAAACAG CCTTACGTGAAGAAGTTGTGAAGCCCATTGATTCCGGAGGCAAATATAAAGCGGGTTACGAGCGTTTATTTGGGGC TAAACTTTTTAAGGACGGAAAGGAACTTGGCGACCTGGCCAAATTTGTTATTGCCCAAGAAGGGGAAAGCTCGCCG AAGCTTCCACAGATCGCTCATTTTGAAAAATTTTCTACCTACTTCACGGGTTTTCATGATAACCGTAAAAACATGT ATAGCTCTGACGATAAGCACACAGCTATCGCTTACCGCCTTATTCACGAGAACCTTCCGCGTTTTATCGACAATTT GCAAATCCTTGTAACCATCAAACAAAAACACTCAGTCCTGTATGACCAAATTGTCAACGAACTTAACGCGAATGGC TTGGATGTTTCTCTGGCGTCCCACTTAGATGGGTACCACAAGCTGTTGACTCAGGAAGGCATTACAGCATATAATC GTATTATCGGAGAGGTTAATTCGTACACTAACAAGCACAACCAAATCTGTCACAAATCTGAACGCATCGCTAAGCT GCGTCCATTACACAAGCAAATCCTGTCGGACGGCATGGGAGTATCGTTCCTGCCGTCTAAGTTCGCGGACGACAGT GAAATGTGTCAAGCAGTTAATGAATTCTATCGTCACTACGCTCACGTGTTCGCGAAGGTTCAAAGCTTATTCGACC GCTTCGATGACTATCAAAAGGACGGTATTTATGTGGAGCACAAAAATCTGAACGAGCTGTCTAAACAGGCGTTCGG CGATTTTGCCCTGCTGGGGCGCGTATTAGACGGTTATTATGTCGATGTAGTCAATCCTGAGTTTAACGATAAGTTT GCTAAGGCCAAGACCGATAACGCGAAAGAGAAGTTGACGAAAGAAAAGGACAAATTCATTAAGGGGGTGCATTCTT TGGCTTCTTTGGAGCAAGCGATTGAGCATTATATCGCGGGCCACGATGATGAATCTGTTCAGGCCGGTAAGCTGGG ACAGTACTTCAAACATGGACTGGCGGGTGTTGACAACCCTATTCAAAAAATCCACAACAGCCACAGCACAATCAAG GGGTTTCTTGAACGCGAACGTCCAGCCGGTGAACGTACCTTACCTAAGATCAAGTCGGACAAGAGTTTGGAGATGA CTCAATTGCGTCAGCTTAAGGAGTTGCTGGACAACGCTCTGAACGTCGTCCATTTCGCGAAATTATTAACAACGAA GACGACTTTAGATAACCAGGATGGCAATTTCTATGGAGAATTCGGAGCTTTGTATGACGAACTGGCAAAAATCGCT ACGCTGTATAATAAAGTGCGTGACTATTTGAGCCAGAAACCCTTTAGCACTGAAAAGTATAAACTTAACTTCGGAA ATCCGACACTGTTGAATGGATGGGATCTTAACAAGGAAAAGGATAATTTTGGAGTAATCTTGCAGAAAGACGGCTG CTATTACTTGGCTTTGCTGGACAAAGCCCACAAGAAGGTATTTGATAATGCGCCGAATACGGGTAAGAGCGTCTAC CAGAAAATGGTATATAAGCTGCTTCCGGGCAGCAACAAAATGTTACCCAAAGTGTTTTTCGCAAAGTCCAACCTTG ATTATTATAATCCGAGTGCCGAGCTGTTAGACAAATATGCGCAGGGAACTCACAAGAAAGGAGACAATTTCAATCT GAAGGACTGTCATGCCTTAATTGATTTTTTCAAAGCTAGCATCAATAAACATCCCGAATGGCAACACTTTGGTTTC GAGTTTAGCCTGACTTCGAGTTATCAAGACCTTAGCGACTTCTATCGTGAAGTGGAACCTCAAGGGTATCAAGTCA AATTCGTGGACATTGACGCCGATTATATTGATGAACTGGTTGAGCAAGGACAGCTTTACCTGTTCCAGATCTATAA TAAGGATTTCTCGCCGAAGGCACACGGTAAACCTAACTTGCATACTTTGTACTTTAAAGCGCTTTTCAGTGAGGAC AATTTAGCAAACCCAATCTATAAGTTAAATGGCGAGGCGGAAATTTTCTACCGTAAAGCGTCATTAGACATGAATG AAACAACAATCCATCGCGCCGGCGAAGTTTTGGAGAACAAGAACCCTGATAACCCGAAAGAGCGCCAGTTCGTTTA TGACATTATCAAGGATAAGCGCTACACTCAGGATAAATTTATGTTGCATGTACCCATCACAATGAACTTCGGGGTA CAGGGAATGACTATCAAGGAGTTTAATAAAAAAGTCAATCAGTCGATCCAGCAGTATGATGAAGTGAACGTAATCG GAATTGATCGCGGAGAGCGCCACTTGCTGTACCTGACCGTAATTAACAGTAAAGGAGAAATCCTGGAGCAGCGCAG CCTGAATGACATCATTACGACGAGCGCGAATGGAACCCAGATGACAACACCGTATCATAAGATTCTGGACAAGCGT GAGATCGAACGTTTAAACGCTCGCGTTGGATGGGGGGAAATCGAGACAATCAAGGAGTTGAAATCCGGGTACCTTA GCCATGTGGTACACCAAATCTCGCAATTAATGCTTAAATACAACGCTATTGTAGTGCTGGAAGATCTGAATTTCGG TTTTAAACGTGGACGTTTCAAGGTCGAAAAACAAATTTACCAAAATTTCGAAAATGCTCTTATTAAAAAGCTTAAC CACCTTGTCCTTAAAGATAAAGCGGATAATGAGATTGGCTCATACAAAAATGCCCTGCAGTTGACCAACAACTTCA CTGACCTTAAGAGCATTGGAAAACAGACAGGGTTTCTTTTTTACGTCCCGGCATGGAACACGTCAAAAATTGACCC AGTCACGGGGTTCGTAGACTTACTGAAACCACGCTATGAAAATATCGCGCAAAGTCAGGCGTTCTTTGATAAATTT GACAAAATCTGCTATAATGCTGATAAAGGTTATTTTGAGTTTCATATCGACTACGCCAAATTCACGGATAAGGCGA AGAATAGCCGCCAGATCTGGACGATTTGCAGCCATGGGGATAAGCGTTATGTATATGACAAGACGGCCAATCAGAA TAAAGGCGCCACTATTGGCATTAACGTCAACGACGAGTTAAAGAGCCTTTTTGCACGCTATCGTATCAACGATAAA CAGCCGAATCTGGTTATGGATATTTGCCAGAACAATGATAAAGAGTTTCACAAATCTCTTACTTACTTATTAAAAG CTCTTTTGGCTCTTCGTTACTCCAACGCATCCTCGGACGAAGATTTCATCCTGTCTCCGGTAGCTAACGATAAAGG CGTGTTCTTCAATTCCGCTTTAGCGGATGATACTCAGCCGCAGAACGCGGATGCAAATGGGGCTTATCACATTGCT TTAAAGGGTTTATGGTTATTAAATGAGTTGAAAAACTCAGACGATCTTGACAAAGTAAAGTTGGCTATTGACAATC AAACATGGTTAAACTTTGCTCAGAACCGCTAA SEQ ID NO: 69 ART17_Optimized2 ATGCTGTTCCAAGACTTTACTCACCTTTATCCGCTTTCTAAAACCGTTCGCTTCGAACTTAAACCTATTGGTAAGA CACTGGAGCATATCCACGCCAAAAACTTCCTTAGCCAGGACGAAACAATGGCAGACATGTACCAAAAGGTAAAGGC AATTTTGGATGATTATCACCGCGATTTCATCACAAAGATGATGTCTGAGGTCACATTAACCAAACTGCCCGAATTT TACGAGGTGTACCTGGCCCTTCGCAAAAACCCCAAGGACGATACCCTTCAAAAGCAACTTACGGAGATCCAGACGG CGCTGCGCGAGGAAGTGGTCAAACCGATCGACTCGGGGGGAAAGTACAAGGCGGGTTACGAGCGTTTGTTTGGTGC AAAATTATTTAAGGATGGCAAGGAACTGGGTGACTTAGCAAAATTTGTCATCGCCCAGGAGGGCGAAAGCTCCCCC AAATTACCTCAGATTGCCCATTTTGAGAAGTTTAGCACCTATTTCACGGGTTTTCATGATAACCGCAAAAATATGT ATAGCAGCGACGATAAGCATACGGCGATCGCATATCGTCTTATCCATGAAAATTTACCGCGTTTCATTGACAACTT GCAAATCTTAGTCACCATTAAGCAAAAACATAGCGTCTTATACGACCAAATTGTCAACGAGTTGAATGCCAATGGG TTAGACGTCTCCTTAGCGAGTCACCTTGATGGATACCATAAGTTACTTACCCAAGAGGGTATCACTGCATATAATC GTATCATTGGTGAAGTTAATTCATACACTAACAAACATAATCAGATCTGCCATAAGTCGGAGCGTATCGCAAAATT ACGCCCATTACATAAGCAGATTCTGTCCGACGGCATGGGGGTCTCCTTTCTTCCGTCGAAGTTTGCTGACGACAGT GAAATGTGCCAGGCTGTCAATGAATTCTATCGCCATTATGCTCATGTATTCGCTAAGGTTCAATCACTGTTTGATC GTTTCGATGATTATCAGAAAGATGGAATCTATGTGGAACATAAGAACCTGAACGAACTTTCAAAACAGGCGTTCGG CGATTTCGCACTTCTTGGACGTGTCCTTGATGGTTACTATGTGGATGTCGTCAACCCAGAGTTCAATGACAAATTC GCGAAGGCCAAGACGGATAACGCAAAAGAAAAACTTACAAAGGAGAAAGATAAATTCATCAAAGGCGTGCACTCCC TTGCGTCGCTGGAACAGGCGATTGAACACTATATTGCAGGACATGATGATGAGAGCGTACAAGCAGGAAAATTAGG ACAATATTTTAAACACGGTTTGGCGGGAGTAGATAATCCGATCCAAAAGATCCACAATAGCCACAGTACTATCAAA GGTTTTCTTGAACGCGAGCGCCCCGCAGGAGAACGTACCCTGCCAAAGATCAAGAGCGATAAGTCTTTAGAAATGA CCCAATTACGCCAGCTGAAAGAGTTGTTAGATAATGCATTAAACGTAGTACACTTTGCTAAGTTGTTGACCACGAA GACTACGTTGGACAATCAAGACGGTAACTTCTACGGTGAATTCGGAGCTTTATACGATGAGCTTGCAAAGATTGCA ACCCTGTATAATAAGGTGCGCGACTATTTGTCCCAGAAGCCCTTTTCCACGGAAAAATATAAACTGAACTTTGGGA ACCCGACATTACTTAATGGATGGGATTTAAATAAGGAAAAAGACAACTTCGGTGTGATCTTGCAAAAGGACGGCTG TTATTACCTGGCCCTGTTGGATAAAGCACATAAAAAAGTGTTCGATAATGCCCCTAATACGGGGAAGTCAGTCTAC CAAAAAATGGTGTATAAATTATTACCTGGGTCCAACAAGATGCTTCCTAAAGTATTCTTTGCGAAATCAAACCTTG ATTATTACAATCCCTCGGCGGAGCTTCTGGATAAGTACGCGCAAGGCACACACAAGAAGGGGGACAACTTCAACTT AAAGGACTGTCATGCACTTATTGATTTCTTCAAAGCTTCAATTAATAAACACCCGGAGTGGCAACACTTTGGGTTT GAATTCTCTCTTACTTCATCCTACCAGGATTTGTCCGATTTTTATCGTGAAGTTGAGCCACAGGGTTATCAAGTTA AGTTCGTTGACATCGATGCCGACTATATCGATGAATTAGTTGAACAAGGCCAACTGTATTTATTTCAAATTTACAA CAAAGATTTTAGCCCAAAAGCTCACGGGAAGCCAAATTTGCATACCTTATATTTCAAGGCCCTTTTCAGTGAAGAT AATCTGGCAAATCCTATTTATAAGTTGAATGGTGAGGCGGAGATCTTTTACCGTAAGGCTTCGCTGGATATGAACG AAACAACGATTCATCGTGCAGGCGAAGTGCTGGAAAATAAAAACCCAGATAACCCGAAGGAGCGCCAGTTTGTATA CGATATCATTAAGGATAAACGTTACACGCAGGACAAATTTATGTTGCATGTGCCAATCACCATGAACTTTGGTGTG CAGGGGATGACGATCAAGGAATTCAACAAAAAGGTCAACCAAAGCATCCAACAGTACGACGAGGTAAATGTGATTG GTATTGATCGTGGAGAGCGCCATTTGTTATATTTAACGGTCATCAACTCTAAGGGGGAGATCTTGGAGCAACGCTC ACTGAATGATATTATTACAACGAGCGCCAACGGCACTCAAATGACAACTCCATACCACAAAATCTTGGATAAACGC GAGATTGAACGTTTGAACGCACGTGTTGGATGGGGAGAAATTGAAACCATTAAAGAATTAAAATCGGGTTATCTTA GCCATGTCGTACACCAAATTTCCCAGTTAATGCTGAAGTACAATGCAATTGTTGTCCTGGAAGATTTAAATTTTGG ATTTAAGCGCGGCCGTTTCAAAGTCGAAAAACAAATCTACCAGAACTTCGAAAATGCCCTGATCAAAAAATTGAAC CACCTTGTACTTAAGGACAAGGCAGATAACGAAATCGGCAGTTATAAGAATGCCCTTCAACTGACAAATAATTTTA CCGACTTAAAAAGCATTGGTAAACAAACAGGGTTTTTGTTCTATGTACCTGCATGGAATACCTCCAAAATTGATCC AGTAACTGGGTTCGTAGATCTGTTGAAGCCTCGTTATGAAAACATTGCCCAGTCTCAGGCATTTTTCGACAAGTTC GATAAGATCTGCTATAACGCGGATAAAGGTTACTTTGAATTCCACATTGATTATGCAAAATTTACGGACAAGGCTA AGAATTCTCGCCAGATTTGGACCATCTGTTCACATGGTGATAAACGTTACGTCTACGATAAGACCGCTAATCAAAA CAAGGGGGCAACAATCGGCATTAACGTTAATGATGAGCTGAAATCTTTATTTGCCCGCTACCGTATCAATGACAAA CAACCGAACCTTGTCATGGATATCTGCCAAAACAATGATAAGGAATTTCACAAATCGCTGACCTATTTATTGAAGG CGTTGTTAGCTTTACGTTATTCTAATGCGTCCAGTGACGAGGACTTTATTCTGTCTCCAGTCGCTAACGATAAAGG GGTCTTTTTCAACTCAGCTCTTGCCGATGATACTCAACCACAAAATGCTGACGCAAACGGGGCCTATCATATCGCG CTGAAGGGCCTTTGGCTGTTAAACGAATTAAAGAACAGTGACGATTTGGATAAAGTCAAGTTAGCAATTGACAATC AGACTTGGTTGAATTTCGCGCAAAACCGCTAA SEQ ID NO: 70 ART17_Optimized3 ATGCTTTTTCAAGATTTCACCCATCTTTATCCACTTAGCAAAACGGTACGCTTCGAGCTTAAACCAATCGGAAAAA CTTTAGAACACATTCATGCAAAAAACTTTTTATCCCAAGATGAAACGATGGCTGACATGTACCAGAAAGTTAAGGC AATTTTGGATGATTATCATCGCGACTTCATTACTAAGATGATGTCGGAGGTAACACTGACAAAATTGCCAGAGTTT TACGAGGTGTATTTAGCTCTGCGCAAGAACCCCAAGGACGACACCTTGCAGAAACAATTGACGGAAATCCAGACAG CGTTACGCGAGGAAGTTGTGAAGCCCATCGATTCGGGCGGTAAATATAAAGCAGGGTATGAGCGCCTGTTCGGTGC TAAACTTTTCAAGGATGGCAAGGAGCTGGGTGACTTAGCCAAGTTCGTGATCGCCCAAGAAGGCGAATCATCACCC AAGCTTCCGCAGATTGCCCACTTTGAAAAATTTTCTACCTATTTTACGGGATTTCACGATAACCGCAAAAATATGT ATTCTTCCGATGACAAACATACTGCTATCGCCTACCGTCTTATTCATGAAAATTTGCCTCGTTTCATTGACAATTT GCAAATCCTTGTAACAATCAAACAGAAACATAGTGTGTTGTACGACCAGATTGTCAATGAGCTGAACGCAAACGGG CTGGACGTGAGCTTAGCAAGCCATCTGGATGGGTACCACAAGTTGTTAACCCAAGAGGGAATCACCGCATACAACC GCATCATCGGTGAGGTCAATTCCTATACTAACAAACATAATCAAATCTGCCACAAAAGCGAACGTATCGCGAAACT TCGCCCCTTACACAAGCAAATCTTGAGCGACGGCATGGGAGTATCCTTCCTTCCGAGTAAATTTGCCGACGATTCT GAGATGTGTCAAGCTGTAAATGAATTCTATCGTCACTATGCACATGTCTTTGCCAAAGTTCAGAGCTTGTTTGACC GTTTCGACGATTACCAGAAAGATGGCATTTACGTAGAGCATAAGAACTTGAATGAGCTGAGCAAGCAAGCCTTTGG AGACTTCGCTTTATTGGGACGTGTGCTGGATGGCTATTACGTGGACGTTGTAAACCCAGAGTTCAACGATAAGTTC GCGAAAGCGAAGACAGACAACGCAAAAGAAAAATTAACAAAGGAAAAAGACAAATTTATTAAAGGGGTTCATTCTC TTGCCTCCTTGGAACAAGCAATCGAACATTACATTGCAGGCCACGACGATGAGAGCGTTCAGGCGGGAAAATTAGG CCAATACTTTAAGCATGGGCTTGCTGGCGTCGATAACCCGATTCAAAAAATTCATAACTCCCACAGCACAATTAAG GGGTTTCTTGAGCGTGAGCGCCCTGCTGGCGAACGCACACTGCCCAAGATCAAATCCGACAAATCCTTGGAGATGA CACAGCTGCGCCAGTTGAAGGAGTTGTTAGATAATGCGTTAAATGTAGTACATTTTGCAAAGTTACTGACTACGAA AACAACCCTTGACAACCAAGATGGCAATTTTTATGGGGAGTTTGGTGCCTTATACGATGAGCTTGCTAAAATCGCC ACATTATATAATAAAGTGCGCGATTATCTTAGTCAGAAGCCTTTCTCCACAGAAAAGTACAAGTTAAACTTTGGAA ACCCAACGTTGCTGAATGGGTGGGATTTAAACAAGGAAAAAGATAATTTCGGAGTTATCTTACAAAAAGATGGGTG TTATTACCTTGCATTGCTGGACAAAGCCCATAAAAAGGTATTCGACAATGCACCGAACACAGGTAAATCGGTCTAT CAAAAGATGGTGTATAAACTTCTTCCTGGATCAAACAAGATGCTGCCGAAAGTATTCTTCGCGAAGAGTAACCTTG ACTATTATAATCCTTCGGCCGAATTACTTGACAAATATGCTCAGGGCACACACAAAAAAGGTGATAACTTTAATCT GAAAGATTGTCATGCTCTTATTGATTTCTTTAAGGCTAGCATTAACAAACATCCCGAATGGCAGCACTTCGGGTTT GAATTTAGCTTAACTTCTTCCTACCAGGATCTTTCTGATTTCTACCGCGAGGTGGAACCTCAAGGTTATCAAGTTA AGTTCGTAGATATCGATGCAGACTACATCGACGAACTTGTGGAACAAGGCCAACTGTATTTATTTCAAATCTATAA TAAGGACTTTAGTCCCAAAGCGCATGGGAAACCGAATTTGCACACCCTTTACTTTAAGGCGCTTTTTAGTGAAGAC AATCTTGCAAATCCCATCTATAAGCTTAACGGCGAAGCTGAGATCTTTTACCGCAAAGCTAGTTTAGATATGAACG AAACTACAATTCACCGTGCGGGGGAGGTGCTGGAAAACAAAAATCCGGACAATCCTAAAGAACGTCAGTTTGTATA TGACATCATCAAAGATAAGCGTTATACGCAGGATAAGTTTATGCTGCATGTGCCCATCACTATGAACTTTGGAGTA CAAGGGATGACCATCAAAGAGTTTAATAAGAAAGTTAATCAATCGATCCAACAATATGACGAGGTTAACGTGATCG GAATCGATCGCGGAGAGCGCCACTTATTATACTTAACGGTCATCAACTCGAAAGGTGAGATTTTAGAGCAGCGTTC TTTGAACGACATCATTACGACCAGCGCGAATGGTACGCAGATGACGACGCCTTACCATAAAATTCTTGATAAACGT GAAATTGAACGTTTAAATGCTCGCGTAGGTTGGGGCGAAATTGAGACGATTAAGGAACTGAAGTCCGGATATCTTT CCCATGTGGTTCATCAAATCTCACAGCTGATGTTGAAATACAATGCCATCGTTGTTTTAGAAGATTTAAATTTCGG CTTTAAACGCGGGCGCTTTAAAGTGGAAAAGCAAATTTACCAAAACTTCGAAAACGCCCTTATTAAGAAACTTAAT CACTTAGTATTGAAGGACAAAGCCGATAACGAAATTGGTAGTTACAAGAACGCCTTACAGCTTACTAATAATTTCA CCGATTTAAAAAGCATTGGGAAACAAACAGGCTTTTTGTTCTACGTCCCAGCCTGGAACACTAGTAAAATTGATCC CGTTACAGGTTTTGTAGACCTGCTTAAGCCTCGTTATGAAAACATTGCTCAATCTCAAGCATTCTTCGACAAGTTT GATAAAATCTGCTACAATGCGGATAAAGGGTACTTCGAGTTCCACATCGACTATGCAAAGTTTACCGATAAGGCAA AAAATTCTCGTCAGATCTGGACAATCTGTAGCCATGGGGATAAACGTTATGTGTATGATAAGACTGCTAACCAAAA TAAGGGGGCTACAATTGGTATTAACGTTAACGATGAATTGAAAAGTCTGTTTGCCCGTTACCGTATCAACGATAAA CAGCCGAACTTGGTTATGGACATCTGCCAAAACAATGACAAAGAGTTTCATAAGTCCTTGACTTATCTTCTTAAGG CATTATTAGCTCTGCGTTACAGTAACGCTTCGTCTGACGAAGACTTTATTTTATCACCGGTGGCGAATGACAAGGG CGTTTTTTTCAATTCTGCGTTAGCTGACGATACGCAGCCGCAGAATGCCGATGCAAATGGTGCTTATCATATTGCC CTGAAAGGGTTGTGGTTGTTGAACGAGTTAAAAAACTCCGATGATTTAGACAAAGTTAAATTAGCGATTGATAATC AAACGTGGCTGAACTTCGCTCAAAACCGTTAA SEQ ID NO: 71 ART18_WT ATGAAGTATACCGATTTTACAGGCATTTATCCTGTGTCTAAGACTTTAAGATTTGAGCTCATTCCACAAG GATCTACTGTGGAGAACATGAAACGCGAGGGCATTCTGAACAACGATATGCATCGTGCCGATAGCTACAA GGAAATGAAAAAATTGATTGATGAGTACCACAAGGTATTTATCGAGCGGTGCTTGTCTGATTTCTCCCTG AAGTATGACGATACGGGAAAACACGATTCTCTTGAGGAATATTTTTTCTACTACGAGCAAAAGAGAAACG ATAAGACAAAAAAAATCTTTGAGGATATCCAAGTCGCTTTGCGTAAGCAAATTTCAAAAAGGTTTACTGG CGATACTGCGTTTAAAAGACTTTTCAAGAAAGAACTCATCAAAGAAGACTTGCCCAGTTTTGTAAAAAAC GACCCAGTTAAGACTGAACTGATAAAGGAGTTTTCTGATTTCACCACCTATTTTCAGGAATTCCACAAGA ATCGCAAAAACATGTATACATCTGATGCGAAATCTACTGCTATTGCCTACCGCATCATCAACGAAAACTT GCCCAAATTCATCGACAATATCAACGCATTTCACATTGTTGCCAAGGTGCCCGAAATGCAAGAGCATTTT AAGACAATAGCCGATGAGCTTAGGAGCCACTTACAGGTTGGAGATGACATCGATAAGATGTTTAACCTGC AATTTTTCAACAAAGTGCTGACTCAGTCACAACTCGCTGTATATAATGCCGTTATAGGAGGCAAGAGCGA GGGAAACAAGAAAATACAAGGCATCAATGAGTATGTTAACCTTTATAACCAGCAGCATAAAAAGGCGCGC TTGCCAATGCTGAAACTGCTGTATAAGCAGATCTTGAGCGATCGCGTTGCCATTTCATGGTTACAGGATG AATTTGATAATGACCAGGACATGCTTGATACAATAGAAGCCTTCTATAACAAGCTTGATAGTAATGAAAC TGGTGTGCTGGGCGAAGGCAAGCTCAAGCAAATACTCATGGGACTGGACGGCTACAATTTGGATGGAGTG TTCCTGCGCAACGATTTGCAGCTCTCCGAAGTTTCTCAGCGCCTGTGCGGTGGCTGGAATATAATAAAGG ATGCCATGATAAGTGACTTGAAACGTAGTGTACAGAAGAAGAAAAAAGAAACTGGTGCCGATTTTGAAGA GCGTGTATCAAAACTTTTCTCTGCCCAGAACAGTTTCTCAATTGCTTATATCAACCAGTGCCTTGGGCAG GCAGGAATAAGGTGTAAGATTCAAGATTACTTTGCTTGTCTTGGTGCAAAAGAGGGTGAAAACGAAGCAG AGACGACTCCCGACATTTTCGATCAAATTGCTGAGGCTTACCATGGGGCCGCTCCAATATTAAATGCTCG GCCAAGCAGTCATAATTTGGCTCAGGATATTGAGAAGGTTAAAGCAATCAAAGCCTTGCTTGATGCGCTC AAGCGCTTGCAGCGATTTGTCAAGCCATTGCTTGGTCGTGGCGATGAGGGCGATAAGGATAGTTTCTTCT ATGGCGATTTTATGCCGATATGGGAAGTTCTCGACCAGCTCACTCCGCTGTACAACAAGGTTCGAAACCG AATGACTCGTAAACCCTATTCGCAAGAAAAAATCAAACTTAATTTCGAGAATAGTACGCTGTTGAATGGC TGGGACTTGAACAAAGAGCATGATAACACAAGCGTGATTTTGCGCCGCGAAGGGTTGTACTACTTAGGCA TCATGAATAAAAACTATAATAAAATATTTGATGCCAACAATGTTGAAACCATAGGAGACTGTTACGAAAA AATGATTTATAAACTTTTGCCGGGTCCCAACAAGATGCTTCCTAAGGTGTTCTTCTCCAAATCAAGAGTG CAGGAATTCTCTCCGAGCAAGAAAATTCTTGAAATTTGGGAGAGTAAGTCTTTTAAGAAAGGTGATAATT TCAATCTCGACGATTGTCATGCTCTCATAGATTTCTATAAAGATTCTATAGCAAAGCATCCCGACTGGAA TAAATTTAACTTCAAGTTCTCTGATACTCAGTCATATACAAATATTAGTGATTTTTATCGTGATGTTAAT CAGCAGGGTTACTCCCTTTCTTTCACAAAAGTGAGTGTTGACTATGTCAACAGGATGGTGGACGAAGGCA AGCTATATCTTTTCCAAATCTACAATAAGGACTTTTCACCCCAAAGCAAGGGTACACCCAACATGCACAC CCTATACTGGCGCATGCTCTTTGATGAGCGCAACTTGCACAATGTTATTTATAAGCTCAATGGTGAAGCC GAAGTGTTTTACCGCAAGGCAAGCCTAAGGTGCGATCGACCTACTCACCCCGCACATCAGCCTATTACTT GCAAAAACGAAAATGACTCCAAACGTGTGTGTGTGTTCGACTACGACATTATTAAAAATCGCCGATACAC CGTTGATAAATTCATGTTTCATGTTCCTATAACAATAAATTATAAGTGTACTGGCAGCGACAACATCAAT CAGCAGGTGTGTGATTATTTGCGCTCGGCAGGCGATGACACTCACATCATAGGCATCGACCGTGGAGAGC GCAATTTGCTCTACTTGGTGATAATCGACCAGCATGGTACTATTAAGGAGCAATTTTCGCTTAACGAGAT TGTCAACGAGTACAAGGGTAATACCTATTGCACCAATTATCATACCTTACTTGAGGAGAAGGAAGCTGGC AACAAGAAAGCCCGGCAAGACTGGCAAACTATTGAAAGCATAAAAGAACTCAAAGAGGGCTATCTGTCGC AGGTAATCCACAAGATCTCTATGCTCATGCAGCGTTATCATGCCATTGTTGTACTTGAAGATTTGAACGG TTCGTTCATGCGTAGCAGGCAAAAAGTGGAAAAGCAGGTATATCAGAAATTTGAGCACATGCTCATCAAC AAGCTTAACTACTTAGTCAACAAGCAATATGATGCTGCCGAGCCAGGAGGCTTGTTGCACGCATTGCAAC TCACGAGCAGAATGGATAGTTTTAAAAAGCTGGGCAAGCAAAGCGGTTTCCTTTTCTATATTCCAGCATG GAATACTTCAAAGATTGATCCTGTGACTGGATTTGTCAACCTTTTTGACACTCGTTACTGCAATGAAGCC AAAGCTAAGGAGTTCTTTGAAAAATTTGACGACATAAGCTACAATGACGAGCGTGATTGGTTTGAGTTTT CTTTTGATTATCGTCATTTTACCAACAAGCCTACTGGAACTCGTACTCAATGGACACTATGCACCCAAGG GACACGTGTACGCACTTTTCGCAATCCCGAGAAAAGCAATCATTGGGACAATGAGGAATTCGATCTCACA CAAGCATTTAAAGACCTCTTTAACAAATATGGCATCGATATCGCTTCGGGACTTAAAGCCCGTATAGTTA ACGGGCAGCTCACTAAAGAAACCTCTGCAGTCAAAGACTTCTATGAGTCGTTGCTTAAGTTACTAAAACT CACTTTGCAGATGCGAAATAGTGTCACTGGTACTGACATTGATTATCTTGTATCCCCTGTGGCTGATAAA GATGGTATTTTTTTCGACAGCCGAACTTGCGGTAGCCTTTTACCTGCCAATGCCGACGCCAATGGAGCTT TCAATATAGCACGAAAAGGATTGATGTTGTTACGTCAGATTCAACAAAGCTCAATTGATGCAGAAAAGAT CCAGCTCGCTCCCATTAAAAATGAAGATTGGCTTGAATTCGCTCAGGAGAAACCATACTTGTAA SEQ ID NO: 72 ART18_Optimizedl ATGAAATACACGGACTTCACGGGTATCTACCCAGTGTCGAAGACACTGCGCTTTGAATTGATTCCCCAAGGCTCCA CTGTAGAAAATATGAAGCGTGAGGGAATTCTGAATAACGATATGCATCGCGCAGACAGCTACAAAGAGATGAAGAA GCTTATTGATGAATATCATAAAGTCTTTATCGAGCGCTGTTTAAGCGATTTCAGCCTTAAATATGATGACACCGGG AAACACGATTCATTGGAAGAGTATTTTTTCTACTACGAACAGAAGCGTAATGACAAGACGAAGAAGATCTTTGAAG ACATCCAAGTCGCATTGCGCAAACAGATCAGTAAACGCTTCACAGGCGATACTGCTTTTAAGCGCCTTTTTAAGAA GGAACTTATCAAAGAAGATCTGCCGTCCTTTGTAAAAAACGATCCGGTTAAGACGGAATTGATTAAAGAGTTTAGT GATTTCACTACGTATTTCCAAGAATTTCATAAGAACCGCAAGAACATGTATACTTCAGATGCTAAATCTACGGCAA TCGCCTACCGTATTATTAATGAGAATCTTCCTAAGTTCATCGACAATATTAACGCTTTTCACATTGTAGCAAAGGT TCCTGAAATGCAAGAACATTTTAAGACGATTGCGGATGAGCTGCGTTCTCACCTTCAAGTGGGTGACGACATTGAC AAAATGTTCAATTTACAATTTTTTAATAAGGTTCTTACACAATCACAACTTGCCGTGTACAACGCCGTAATCGGCG GTAAGTCTGAGGGCAATAAGAAAATCCAGGGCATTAACGAATACGTAAATCTGTATAACCAACAGCATAAGAAGGC CCGTCTTCCTATGCTTAAACTGTTATACAAGCAGATCTTGAGCGACCGCGTGGCAATTTCATGGCTGCAGGATGAA TTTGATAACGATCAGGACATGCTTGACACAATCGAGGCCTTTTATAATAAGCTGGATAGTAACGAAACGGGAGTTC TGGGAGAAGGTAAGTTAAAGCAGATTTTGATGGGGCTGGACGGGTATAATCTTGATGGGGTCTTCTTACGCAACGA CCTGCAGTTGAGCGAGGTGTCCCAACGCCTGTGCGGAGGCTGGAACATCATTAAGGACGCGATGATTTCGGACCTG AAACGCAGTGTACAGAAAAAAAAGAAGGAAACTGGAGCGGACTTTGAGGAACGCGTCTCCAAACTTTTTAGTGCTC AAAATAGTTTTTCGATCGCTTATATCAACCAGTGCCTGGGGCAGGCGGGAATTCGCTGTAAGATCCAAGATTATTT TGCGTGCTTGGGGGCAAAGGAGGGGGAGAATGAAGCTGAGACTACTCCAGATATTTTTGACCAGATTGCAGAGGCT TATCATGGGGCGGCACCAATTCTTAATGCCCGCCCTAGCTCTCATAACCTGGCGCAGGACATCGAGAAGGTGAAAG CAATCAAAGCTCTGCTTGACGCACTGAAACGCCTGCAACGCTTTGTGAAGCCCTTATTAGGCCGCGGAGACGAAGG CGATAAAGATAGCTTCTTCTACGGGGACTTCATGCCGATCTGGGAGGTACTTGATCAGTTAACCCCCTTATATAAT AAGGTGCGTAACCGTATGACGCGTAAACCATACTCGCAGGAAAAGATTAAATTAAACTTTGAGAACTCTACTTTAC TGAACGGGTGGGACCTGAATAAAGAACACGACAATACATCAGTGATCTTACGCCGTGAGGGACTTTATTATCTGGG CATCATGAACAAGAATTATAACAAGATTTTCGACGCGAACAATGTCGAAACAATTGGCGATTGCTACGAGAAAATG ATCTATAAGTTGTTACCGGGTCCAAATAAAATGCTTCCTAAAGTGTTCTTTAGCAAATCGCGCGTGCAGGAATTCT CGCCAAGCAAGAAGATCTTAGAAATCTGGGAATCGAAATCCTTTAAAAAAGGAGATAACTTTAACCTTGATGACTG CCACGCCCTTATTGACTTCTACAAAGATTCAATTGCTAAGCACCCTGACTGGAATAAGTTTAACTTTAAGTTTTCC GACACCCAGTCATACACTAACATTTCTGACTTCTATCGCGACGTTAATCAACAAGGCTACAGTCTTTCATTCACGA AGGTGTCGGTGGATTACGTTAATCGCATGGTCGATGAGGGTAAGTTATACCTTTTCCAGATCTATAATAAAGACTT TTCGCCCCAGTCGAAGGGAACTCCGAATATGCACACCTTGTATTGGCGCATGCTTTTCGACGAACGCAACCTGCAC AATGTTATTTACAAGTTAAATGGTGAAGCCGAGGTTTTCTATCGTAAGGCATCACTGCGTTGTGATCGTCCGACGC ACCCGGCACATCAACCCATCACGTGCAAGAACGAAAACGATTCGAAACGTGTCTGTGTATTCGACTATGACATCAT CAAAAACCGTCGCTACACTGTGGATAAGTTTATGTTTCATGTCCCCATTACGATCAATTACAAATGTACAGGAAGC GACAACATTAACCAGCAAGTATGCGATTACTTGCGTAGCGCGGGAGATGATACACACATCATTGGTATTGATCGTG GTGAGCGCAACTTGCTGTATCTTGTGATTATCGATCAACACGGAACGATTAAAGAGCAGTTTTCGTTGAACGAGAT CGTGAATGAGTACAAAGGCAACACGTACTGTACAAACTATCACACTTTGCTTGAGGAGAAAGAGGCGGGTAACAAA AAAGCGCGTCAAGACTGGCAAACAATCGAGAGCATTAAAGAATTGAAGGAAGGATATTTGAGCCAAGTGATCCACA AAATCTCGATGTTAATGCAACGCTACCACGCTATTGTAGTATTAGAGGATTTGAATGGAAGTTTCATGCGCAGCCG CCAAAAAGTAGAAAAACAAGTTTATCAAAAGTTCGAACACATGTTAATCAACAAACTTAATTATCTTGTCAATAAG CAGTATGATGCTGCAGAACCGGGTGGGTTATTGCATGCTTTACAGCTTACTTCGCGTATGGATAGCTTTAAAAAGT TAGGTAAACAGTCCGGGTTCCTGTTTTATATCCCTGCGTGGAATACTTCCAAGATTGACCCTGTCACCGGGTTCGT AAACCTTTTCGACACCCGCTACTGCAACGAGGCAAAGGCGAAGGAGTTTTTTGAAAAGTTTGACGATATTTCATAT AATGACGAACGCGACTGGTTCGAGTTTTCATTCGATTACCGCCATTTCACAAATAAGCCCACAGGAACTCGTACCC AGTGGACCTTATGCACCCAAGGCACTCGTGTTCGCACATTCCGTAACCCTGAGAAATCAAATCACTGGGATAATGA GGAGTTTGACCTGACCCAGGCCTTTAAGGATTTATTTAATAAATACGGTATCGACATCGCGAGCGGCTTAAAGGCA CGTATTGTCAACGGCCAGCTTACGAAGGAAACTAGTGCAGTCAAAGACTTCTACGAGAGTCTGCTGAAGTTGTTGA AGCTGACTCTTCAAATGCGTAATTCAGTTACAGGGACAGACATCGATTACCTGGTGAGCCCAGTTGCGGATAAAGA TGGTATCTTTTTCGATTCGCGTACTTGCGGCTCATTGCTGCCTGCAAACGCGGATGCCAACGGAGCGTTCAACATT GCTCGTAAGGGGTTGATGCTGCTTCGCCAAATTCAGCAATCCAGTATTGATGCCGAAAAAATTCAGCTTGCCCCAA TTAAAAATGAAGACTGGCTTGAATTTGCACAAGAAAAGCCATATTTATAA SEQ ID NO: 73 ART18_Optimized2 ATGAAATACACGGACTTCACCGGCATCTACCCAGTTTCTAAGACACTGCGCTTCGAGTTGATTCCACAAGGGTCGA CAGTAGAGAACATGAAACGCGAGGGTATTCTTAACAATGACATGCACCGTGCGGACTCGTATAAAGAAATGAAAAA GCTGATTGACGAATATCATAAAGTGTTCATCGAACGTTGCTTATCAGATTTTTCCCTTAAGTATGATGATACAGGT AAGCACGACTCCTTAGAGGAATATTTTTTTTACTATGAACAAAAGCGCAACGACAAGACTAAGAAAATCTTCGAGG ATATTCAAGTGGCGCTGCGCAAGCAAATCTCAAAACGCTTTACCGGGGACACTGCCTTCAAACGCCTTTTTAAGAA GGAATTAATTAAAGAGGATTTGCCGTCATTCGTAAAAAACGATCCAGTCAAAACGGAACTTATTAAGGAGTTCTCG GATTTTACCACTTACTTTCAGGAATTTCACAAGAACCGCAAAAACATGTATACATCAGATGCCAAATCGACCGCCA TCGCATATCGTATCATCAATGAGAACCTGCCGAAGTTTATCGATAATATCAACGCGTTCCATATTGTGGCTAAAGT GCCAGAAATGCAAGAGCACTTTAAAACCATTGCGGATGAACTGCGCTCTCATCTTCAGGTGGGGGATGATATTGAC AAAATGTTTAACTTGCAATTTTTCAATAAAGTCCTTACGCAGAGCCAGCTGGCCGTATATAATGCTGTGATCGGTG GGAAATCTGAAGGTAACAAAAAAATTCAAGGGATCAACGAATACGTAAATTTGTACAACCAACAACACAAAAAGGC ACGCCTGCCCATGTTAAAGTTGCTTTACAAACAAATCTTATCTGATCGTGTGGCCATTTCTTGGCTTCAGGACGAG TTTGATAACGACCAGGACATGTTAGACACGATTGAAGCCTTTTACAACAAACTTGACTCGAATGAAACCGGCGTGT TGGGTGAGGGGAAGCTGAAGCAGATTTTAATGGGCCTGGATGGGTACAACCTTGACGGCGTTTTCCTGCGCAATGA CCTGCAATTGTCCGAAGTATCGCAGCGTCTGTGTGGAGGCTGGAACATTATTAAGGATGCTATGATTTCTGATTTG AAACGTTCCGTCCAAAAAAAAAAAAAGGAAACGGGAGCGGATTTCGAAGAGCGTGTCTCTAAGCTTTTTAGCGCCC AAAACTCCTTCTCTATCGCATATATTAATCAGTGCCTTGGGCAGGCAGGTATTCGCTGTAAAATCCAAGACTACTT TGCATGCTTGGGCGCCAAAGAGGGCGAAAATGAAGCAGAGACGACACCAGATATCTTTGACCAAATCGCCGAAGCC TACCATGGTGCGGCACCCATTTTGAACGCTCGCCCAAGCTCACACAATTTGGCACAGGATATCGAAAAGGTAAAGG CTATCAAAGCCTTACTTGACGCCTTGAAGCGCTTACAGCGTTTTGTGAAGCCTTTATTAGGCCGTGGCGACGAAGG TGATAAAGATTCTTTTTTCTACGGTGACTTCATGCCTATTTGGGAGGTGTTAGACCAACTGACTCCCCTGTACAAT AAGGTGCGCAATCGTATGACTCGCAAACCTTACAGCCAAGAGAAGATCAAGCTTAACTTTGAGAACTCAACACTTT TAAATGGATGGGACTTAAATAAAGAACATGATAACACATCTGTGATTTTACGTCGTGAGGGCTTGTACTATTTAGG CATTATGAATAAAAACTACAATAAGATTTTTGACGCGAACAATGTAGAGACAATTGGCGACTGTTATGAAAAGATG ATTTACAAGTTGCTTCCAGGTCCAAATAAAATGTTGCCGAAGGTCTTTTTTTCGAAATCACGCGTCCAAGAATTTT CTCCAAGCAAAAAAATCCTTGAAATCTGGGAATCTAAAAGTTTTAAGAAAGGAGACAATTTTAATTTAGACGATTG TCACGCGCTGATTGACTTCTACAAAGATAGCATTGCCAAACACCCGGATTGGAACAAATTCAATTTCAAGTTCAGT GACACGCAGTCGTATACGAACATCAGTGATTTCTATCGTGATGTTAATCAACAGGGTTATTCGTTATCCTTCACAA AGGTGTCAGTAGACTATGTTAACCGTATGGTCGACGAAGGCAAGCTTTATCTTTTCCAGATTTATAACAAGGACTT TTCGCCTCAATCAAAGGGTACGCCGAACATGCATACCCTTTACTGGCGCATGCTTTTCGATGAGCGCAATTTACAC AACGTTATCTACAAACTGAACGGCGAGGCTGAGGTTTTTTATCGCAAAGCTAGTTTGCGTTGCGACCGTCCAACCC ATCCGGCGCACCAGCCCATCACCTGTAAAAATGAGAACGATTCCAAGCGCGTTTGCGTTTTCGATTACGATATTAT CAAGAACCGTCGTTATACTGTAGACAAGTTTATGTTTCATGTACCGATTACGATTAACTATAAGTGCACTGGGTCG GACAATATTAATCAGCAAGTATGTGACTATTTGCGCAGCGCTGGCGATGATACTCACATCATCGGCATTGATCGCG GAGAACGCAATTTATTGTACCTTGTGATCATTGACCAGCATGGAACGATCAAGGAGCAGTTCTCATTAAACGAAAT TGTCAATGAATACAAGGGTAATACCTACTGCACTAATTATCATACCTTGCTTGAAGAGAAAGAAGCGGGCAACAAG AAGGCCCGTCAGGATTGGCAAACGATTGAATCTATCAAGGAACTTAAGGAAGGATATCTTTCGCAGGTTATTCATA AAATTAGCATGCTTATGCAACGCTATCATGCTATTGTAGTCCTGGAGGATCTTAACGGTAGCTTTATGCGCTCTCG CCAAAAGGTTGAAAAACAAGTCTATCAAAAATTCGAGCATATGCTGATTAACAAACTTAATTATCTGGTTAACAAG CAGTATGACGCCGCGGAGCCGGGCGGGCTTCTTCACGCTCTTCAATTAACTTCCCGTATGGACAGTTTTAAAAAGC TGGGGAAACAGTCTGGTTTTTTATTTTACATCCCCGCTTGGAATACATCAAAGATTGATCCAGTCACGGGGTTTGT CAACTTGTTTGATACACGTTATTGTAACGAGGCTAAAGCGAAAGAATTTTTTGAAAAATTCGACGATATCTCCTAT AACGATGAACGTGATTGGTTTGAGTTTTCATTCGACTATCGCCACTTTACGAACAAACCGACGGGTACTCGTACCC AGTGGACTTTGTGCACACAAGGTACACGTGTTCGCACTTTCCGCAACCCGGAAAAGAGTAATCATTGGGATAACGA AGAGTTCGACCTTACTCAAGCGTTCAAAGATTTGTTTAATAAGTATGGAATTGATATCGCTAGTGGGCTTAAGGCG CGCATCGTTAATGGCCAGTTAACCAAGGAGACCTCAGCTGTGAAGGATTTCTATGAATCCTTGCTGAAATTACTGA AGCTTACATTACAAATGCGTAACTCTGTGACCGGGACCGATATCGATTATCTGGTCAGCCCGGTTGCTGACAAGGA CGGTATCTTCTTCGATTCGCGTACTTGCGGTAGTTTGCTTCCCGCCAACGCGGATGCAAACGGAGCCTTTAATATT GCTCGTAAAGGGTTAATGCTTCTTCGCCAAATCCAACAGTCCTCTATCGACGCAGAAAAGATTCAGTTGGCACCCA TTAAGAACGAAGATTGGTTGGAGTTTGCCCAGGAGAAGCCCTACTTGTAA SEQ ID NO: 74 ART18_Optimized3 ATGAAATATACTGACTTCACTGGCATCTATCCTGTGTCCAAAACCCTTCGCTTCGAATTGATTCCTCAAGGTTCCA CGGTAGAAAATATGAAACGCGAGGGGATTCTGAACAATGACATGCATCGCGCAGATTCTTACAAAGAGATGAAAAA GTTGATTGACGAGTACCATAAGGTCTTTATCGAACGCTGTCTGAGCGACTTCTCCCTGAAGTATGATGATACGGGG AAGCATGATAGCTTAGAAGAATACTTCTTCTATTACGAACAAAAGCGCAACGATAAAACAAAGAAGATTTTCGAAG ATATCCAAGTTGCATTGCGCAAACAAATCAGCAAACGTTTTACGGGGGATACCGCATTCAAGCGTTTATTTAAGAA GGAGCTTATCAAGGAGGATTTGCCATCGTTCGTCAAAAATGACCCGGTTAAGACTGAGCTTATCAAAGAATTTTCA GACTTCACAACTTACTTTCAGGAGTTCCACAAAAATCGTAAAAACATGTACACAAGTGATGCGAAATCTACAGCCA TCGCATACCGTATCATTAATGAAAACCTTCCAAAGTTCATCGATAACATTAATGCTTTCCACATCGTTGCAAAAGT ACCTGAAATGCAGGAACACTTCAAAACTATCGCAGATGAATTGCGTTCGCATTTACAAGTCGGGGATGATATTGAC AAAATGTTTAATTTACAGTTTTTTAATAAGGTGTTGACCCAATCTCAATTGGCGGTCTATAACGCAGTTATTGGTG GCAAAAGCGAAGGGAACAAAAAGATCCAAGGCATCAACGAATACGTTAATTTATACAACCAACAGCACAAGAAGGC GCGCTTGCCCATGTTGAAACTGTTATATAAACAGATCCTTAGTGACCGTGTTGCAATCTCGTGGTTGCAGGATGAA TTTGACAATGACCAAGATATGTTGGACACCATCGAGGCCTTTTACAATAAGTTAGACAGCAATGAAACCGGAGTAC TGGGCGAAGGAAAGTTGAAACAAATCTTAATGGGTCTTGATGGATATAACCTGGATGGCGTATTTTTACGCAACGA TTTACAACTTAGTGAAGTTTCCCAACGTCTGTGTGGCGGGTGGAACATTATTAAGGACGCGATGATTTCTGATTTG AAACGTTCAGTGCAAAAGAAAAAAAAAGAAACAGGGGCCGATTTTGAAGAACGCGTCAGCAAATTATTCTCTGCAC AAAATTCGTTTTCAATTGCTTACATTAATCAATGTTTGGGGCAGGCTGGCATTCGCTGTAAAATTCAAGATTACTT CGCTTGCCTTGGTGCAAAGGAGGGTGAAAACGAGGCTGAAACCACACCGGATATTTTCGACCAAATTGCCGAAGCG TATCATGGCGCCGCACCGATCTTAAATGCGCGTCCCTCTTCGCACAATCTGGCACAGGATATTGAAAAAGTCAAAG CTATTAAGGCTCTTTTAGACGCATTAAAGCGCTTGCAACGTTTTGTAAAACCTCTTTTAGGCCGTGGCGATGAAGG AGACAAAGATTCTTTCTTTTACGGCGACTTCATGCCAATCTGGGAGGTTTTAGACCAGTTAACGCCGCTGTATAAT AAGGTGCGCAACCGCATGACGCGTAAACCATACTCACAAGAGAAAATCAAGTTGAACTTTGAGAACTCGACTTTGC TGAATGGGTGGGATTTGAATAAAGAGCACGATAACACAAGTGTAATTCTGCGTCGCGAGGGGTTGTACTATTTAGG AATTATGAATAAAAATTACAATAAGATTTTTGATGCAAATAACGTAGAAACAATCGGCGACTGTTATGAGAAAATG ATCTATAAGCTTTTACCCGGGCCAAATAAAATGTTACCAAAAGTGTTTTTTTCAAAAAGTCGCGTACAGGAGTTCT CCCCGAGCAAGAAGATTCTGGAAATCTGGGAGAGCAAGTCTTTCAAAAAAGGTGACAATTTCAACTTAGACGATTG CCACGCGCTTATTGACTTTTACAAAGACAGTATCGCGAAGCACCCCGATTGGAACAAATTTAATTTCAAGTTTTCA GACACGCAGTCTTACACAAACATTTCTGATTTTTATCGTGATGTAAACCAGCAGGGGTACTCCTTGTCCTTCACTA AGGTAAGTGTAGATTATGTTAATCGTATGGTAGATGAGGGGAAGTTGTACCTTTTCCAAATCTACAACAAAGATTT TAGTCCCCAATCAAAGGGTACGCCGAACATGCACACTCTGTATTGGCGTATGCTTTTTGACGAGCGCAACCTTCAT AATGTTATCTACAAGTTAAACGGAGAAGCAGAGGTATTTTATCGCAAAGCCTCTCTTCGCTGCGACCGCCCGACAC ACCCAGCCCATCAGCCTATCACATGCAAAAACGAGAACGATAGTAAACGTGTGTGTGTGTTCGATTATGACATCAT TAAGAACCGTCGCTATACCGTCGACAAGTTCATGTTTCACGTTCCCATTACAATTAACTATAAGTGCACGGGATCG GACAATATCAACCAACAGGTCTGCGACTACTTGCGCAGCGCTGGCGACGACACTCACATCATTGGTATTGATCGTG GTGAGCGCAACTTATTATACCTGGTAATCATTGACCAACATGGGACCATTAAGGAGCAGTTTTCTTTGAACGAAAT TGTCAATGAGTACAAAGGTAACACGTATTGCACCAATTATCATACTCTGCTGGAAGAGAAAGAGGCCGGGAATAAA AAGGCACGCCAAGACTGGCAGACAATTGAGTCGATTAAAGAACTGAAAGAAGGGTACCTTAGCCAGGTTATCCATA AGATTAGTATGTTGATGCAACGCTACCACGCAATTGTCGTATTGGAGGACTTAAATGGTAGCTTTATGCGCTCCCG CCAGAAAGTCGAAAAACAGGTCTACCAAAAATTCGAGCACATGTTGATCAATAAGTTGAATTACCTGGTAAATAAA CAATACGATGCGGCCGAACCGGGTGGCCTGTTGCACGCCTTACAGTTGACCTCCCGTATGGATTCCTTTAAGAAAT TGGGCAAGCAATCTGGCTTTCTTTTTTATATCCCGGCATGGAATACTTCGAAAATTGACCCCGTTACGGGTTTTGT TAACTTATTCGACACCCGTTATTGTAATGAAGCGAAGGCCAAGGAATTCTTTGAAAAGTTTGACGATATCAGTTAT AACGACGAGCGCGATTGGTTCGAGTTTTCCTTCGATTATCGCCACTTCACAAATAAACCTACTGGGACGCGTACCC AGTGGACTCTTTGTACCCAAGGGACTCGTGTCCGTACCTTTCGCAATCCCGAAAAGTCAAATCACTGGGACAATGA GGAATTTGATTTGACTCAGGCGTTTAAAGACCTTTTCAATAAGTATGGTATCGACATTGCGTCTGGTCTTAAGGCA CGTATCGTTAATGGCCAGCTTACCAAAGAGACCTCTGCGGTGAAAGACTTCTATGAGTCTCTGTTGAAACTGTTAA AACTGACGTTGCAAATGCGCAACTCCGTCACAGGAACTGATATTGACTACTTAGTGAGCCCTGTCGCAGATAAGGA CGGTATTTTTTTCGATTCACGCACGTGTGGCAGTTTACTGCCCGCAAATGCGGATGCCAATGGCGCGTTCAATATT GCGCGTAAGGGGTTGATGTTACTGCGCCAGATTCAGCAGTCATCAATTGATGCGGAAAAAATTCAGTTAGCCCCCA TCAAAAATGAGGACTGGTTGGAATTTGCGCAAGAAAAACCTTACCTGTAA SEQ ID NO: 75 ART19_WT ATGGAAACATTTTCTGGGTTTACAAATTTGTACCCTTTGTCAAAGACATTGCGGTTTAGATTGATTCCTG TAGGGGAAACATTGAAATATTTTATTGGTAGTGGAATATTGGAAGAAGACCAGCATAGGGCTGAGAGCTA TGTGAAGGTAAAGGCTATTATTGATGACTATCATAGAGCTTATATTGAGAATTCTTTATCAGGCTTTGAA TTACCTTTGGAAAGTACGGGTAAATTCAATTCTTTGGAGGAATATTATTTGTATCATAATATTCGCAATA AAACGGAAGAAATTCAGAACTTGTCATCCAAGGTCAGAACTAATCTGAGGAAACAAGTCGTGGCTCAACT AACTAAGAACGAAATATTTAAAAGAATTGATAAAAAAGAGCTGATTCAGAGTGATTTGATTGATTTTGTT AAAAATGAGCCTGATGCAAATGAGAAAATAGCACTAATCTCAGAATTTCGTAATTTTACTGTATATTTCA AAGGTTTTCATGAAAACCGTAGAAATATGTATTCAGATGAAGAAAAGTCCACGTCTATAGCCTTTCGTCT GATTCATGAGAATCTTCCCAAGTTTATTGATAATATGGAAGTGTTTGCAAAAATACAGAATACTTCTATC TCGGAGAATTTTGATGCTATACAGAAAGAACTTTGCCCGGAGTTGGTAACCCTTTGTGAAATGTTTAAGT TGGGGTATTTTAATAAGACTTTAAGTCAGAAACAAATAGATGCTTATAATACTGTTATAGGTGGTAAAAC CACATCAGAAGGTAAAAAGATTAAAGGTCTTAATGAATATATTAATCTTTATAACCAGCAGCATAAGCAA GAGAAATTACCCAAGATGAAGCTTCTTTTCAAGCAGATACTTAGTGATAGAGAAAGTGCGTCATGGCTGC CAGAGAAGTTTGAGAATGATAGTCAGGTTGTCGGTGCAATAGTGAATTTCTGGAATACTATTCATGATAC AGTTCTTGCAGAAGGAGGGTTGAAAACGATTATTGCTTCATTGGGTAGTTATGGCCTTGAAGGTATTTTC CTAAAGAATGATTTGCAACTTACTGATATATCACAAAAGGCAACAGGTAGTTGGGGTAAAATATCTTCTG AGATAAAGCAAAAAATAGAGGTGATGAATCCTCAAAAGAAAAAAGAGTCTTATGAGACTTATCAAGAACG TATAGATAAGATATTCAAGTCTTATAAAAGTTTTTCTTTAGCTTTTATAAATGAGTGCCTTCGTGGTGAG TATAAGATTGAAGATTATTTTCTCAAGTTAGGGGCTGTGAATAGCAGTTCGTTACAGAAAGAAAATCATT TTTCGCATATTCTCAATACCTATACAGATGTGAAAGAGGTGATTGGCTTTTACTCTGAATCGACTGACAC TAAATTAATACGAGATAATGGTTCCATTCAAAAGATAAAACTGTTTCTTGATGCGGTTAAAGACTTACAG GCTTATGTAAAACCATTATTGGGTAATGGTGATGAAACCGGTAAAGATGAAAGATTTTATGGCGATTTGA TTGAGTATTGGAGTTTGCTTGACTTGATTACTCCTTTATATAATATGGTTCGTAATTATGTCACTCAGAA GCCGTATTCTGTAGATAAAATAAAAATAAATTTCCAGAATCCTACTTTATTGAATGGCTGGGACCTTAAT AAAGAAACGGATAATACATCTGTAATATTGCGTCGTGATGGCAAATATTATCTGGCCATAATGAATAACA AATCCAGAAAAGTCTTTTTGAAATATCCATCAGGGACAGATAGAAATTGCTATGAGAAGATGGAGTATAA ACTTTTACCAGGTGCTAATAAGATGCTACCTAAGGTCTTCTTTTCAAAATCAAGGATAAATGAATTCATG CCTAATGAGCGTTTGTTGTCAAATTATGAAAAGGGCACGCATAAAAAGTCGGGTACTTGTTTTAGTTTGG ATGATTGTCATACTTTGATAGATTTCTTTAAGAAGTCTTTGGACAAACATGAGGATTGGAAAAACTTTGG CTTCAAGTTCTCTGATACTTCTACATATGAAGATATGAGTGGTTTTTATAAAGAAGTAGAGAATCAAGGT TATAAATTATCCTTTAAGCCGATTGATGCTACGTATGTGGATCAGCTTGTTGATGAAGGTAAGATTTTTC TGTTTCAGATTTATAACAAGGATTTTTCTGAGCATAGCAAAGGTACGCCTAATATGCATACCTTGTATTG GAAAATGTTGTTTGATGAAACAAATCTTGGGGATGTGGTGTATAAACTAAATGGTGAGGCTGAAGTCTTT TTCCGTAAGGCAAGTATAAATGTATCACATCCAACTCATCCGGCTAACATACCCATAAAGAAAAAGAATC TTAAACATAAAGATGAAGAAAGAATTCTTAAATATGACTTGATTAAAGATAAGCGTTATACCGTCGACCA GTTCCAGTTTCATGTGCCAATAACCATGAATTTCAAGGCGGATGGAAATGGAAATATAAACCAGAAAGCG ATAGACTATTTACGTTCGGCATCAGATACTCATATAATAGGGATTGACCGTGGTGAACGAAACTTGTTAT ATCTTGTAGTGATTGATGGAAATGGAAAAATCTGTGAGCAATTCTCTTTAAATGAAATAGAAGTTGAATA TAATGGTGAAAAGTATTCAACAAATTACCATGATTTGCTTAATGTCAAGGAGAATGAAAGAAAGCAGGCA AGACAGAGTTGGCAAAGTATAGCTAACATAAAAGACTTGAAAGAAGGCTATTTAAGTCAGGTTATTCATA AGATTTCTGAATTGATGGTCAAATATAATGCGATTGTGGTGCTTGAGGATTTGAATGCTGGATTTATGCG TGGTCGACAAAAGGTTGAAAAGCAGGTTTATCAGAAATTTGAAAAGAAACTCATTGAGAAGTTAAATTAT CTCGTATTCAAGAAACAGTCTTCTGATTTGCCTGGTGGGCTTATGCATGCTTATCAGTTAGCTAATAAAT TTGAGAGTTTTAATACTTTAGGTAAACAAAGCGGATTTCTCTTTTATATCCCCGCCTGGAATACCAGTAA AATGGATCCGGTAACAGGTTTTGTAAATTTGTTTGATGTGAAGTATGAAAGTGTTGATAAGGCAAAAAGC TTTTTCAGTAAGTTCGATTCTATAAGGTATAATGTGGAAAGAGATATGTTTGAATGGAAATTCAATTATG GTGAATTCACGAAAAAAGCCGAAGGAACTAAAACTGATTGGACTGTTTGTTCCTACGGTAATAGAATTAT CACCTTTAGAAATCCGGATAAAAATTCTCAATGGGATAATAAAGAAATAAATCTTACCGAAAATATTAAG CTGCTGTTTGAAAGGTTTGGCATCGACTTATCTTCAAATCTGAAAGATGAGATAATGCAACGTACAGAAA AAGAATTCTTTATCGAACTTATATCCCTATTTAAGCTTGTGCTACAGATGCGTAATAGTTGGACAGGTAC TGATATAGATTATCTGGTATCACCTGTATGCAATGAAAACGGTGAATTTTTCGATAGCAGAAACGTAGAT GAAACACTTCCGCAAAATGCGGACGCAAACGGAGCATATAACATTGCAAGAAAAGGAATGATACTTCTTG ATAAGATTAAGAAAAGTAACGGTGAGAAGAAGCTTGCTCTATCTATAACTAATAGAGAATGGCTTTCATT TGCTCAAGGTTGTTGCAAAAATGGATGA SEQ ID NO: 76 ART19_Optimized1 ATGGAGACATTCAGCGGCTTTACTAATTTATACCCACTTAGTAAAACTCTTCGTTTTCGTTTAATCCCTGTTGGCG AAACTTTGAAATACTTCATCGGGTCAGGTATTTTGGAAGAAGATCAACACCGCGCAGAGTCATACGTAAAAGTCAA AGCCATCATTGACGACTACCACCGTGCTTATATCGAAAATTCTCTGTCTGGTTTTGAACTGCCTTTGGAATCAACT GGGAAGTTCAATAGTCTTGAAGAATACTATCTGTACCACAATATCCGCAATAAAACAGAGGAAATTCAAAACTTGT CGTCAAAAGTCCGTACTAACTTGCGCAAGCAAGTCGTGGCGCAGTTAACCAAAAATGAGATCTTCAAGCGTATTGA CAAAAAAGAACTGATCCAATCAGACTTAATTGATTTCGTAAAGAATGAACCAGACGCAAACGAGAAAATTGCACTG ATCTCAGAGTTCCGTAATTTTACGGTGTATTTTAAAGGGTTTCATGAAAACCGTCGCAACATGTATTCCGATGAGG AGAAGTCGACTTCCATTGCTTTCCGCTTGATTCACGAAAATTTGCCCAAATTCATTGACAATATGGAGGTTTTTGC AAAAATTCAGAACACGTCAATTTCGGAGAACTTCGACGCGATTCAGAAGGAGTTGTGTCCTGAGCTGGTTACGTTG TGTGAGATGTTCAAACTGGGATACTTTAATAAGACTCTTTCGCAAAAACAAATCGACGCTTACAATACAGTTATTG GCGGGAAGACTACTAGCGAGGGCAAAAAGATCAAGGGTTTGAATGAATATATCAACTTGTATAATCAGCAACATAA ACAGGAGAAACTTCCCAAGATGAAGCTTCTGTTCAAACAAATCTTGTCAGACCGCGAATCAGCCTCATGGTTGCCA GAGAAGTTCGAAAACGACAGCCAAGTCGTAGGGGCTATTGTAAACTTCTGGAATACTATTCACGATACTGTGTTGG CCGAAGGTGGATTGAAGACGATCATTGCGAGCTTAGGCTCTTACGGGTTAGAGGGGATCTTCCTGAAAAACGATTT GCAACTGACGGACATTTCCCAAAAGGCTACTGGAAGCTGGGGGAAGATTAGCTCCGAGATCAAGCAAAAGATCGAA GTTATGAACCCCCAGAAGAAAAAAGAATCGTATGAAACTTACCAGGAGCGCATCGATAAAATTTTTAAGAGCTATA AAAGTTTTTCTCTTGCTTTTATCAACGAATGCTTACGTGGGGAGTATAAGATCGAGGATTATTTCCTGAAGCTGGG TGCGGTAAACTCCTCATCTTTACAGAAGGAAAACCATTTTTCACATATTCTGAATACATATACTGACGTTAAGGAG GTGATTGGATTTTATTCAGAATCTACTGACACCAAATTAATCCGTGATAATGGGAGTATTCAAAAAATTAAATTGT TTTTGGATGCAGTAAAAGACCTTCAGGCGTACGTCAAGCCTCTTTTGGGAAATGGGGACGAAACAGGGAAAGATGA GCGTTTCTATGGGGACCTTATTGAGTATTGGTCACTTCTTGATTTGATTACACCACTTTATAATATGGTCCGTAAC TACGTCACTCAGAAACCATACTCAGTAGATAAGATCAAAATTAATTTCCAGAACCCGACCTTGCTGAACGGCTGGG ATTTAAACAAAGAAACTGATAACACAAGCGTTATCTTACGTCGCGACGGAAAGTATTACCTTGCCATTATGAATAA TAAAAGTCGTAAAGTCTTTTTAAAGTATCCGTCGGGTACGGACCGTAACTGTTATGAAAAAATGGAGTACAAGCTT CTGCCGGGTGCTAATAAAATGTTACCCAAAGTTTTCTTTAGTAAAAGCCGTATTAACGAATTTATGCCTAACGAGC GTCTTTTGTCTAATTATGAGAAGGGTACTCACAAAAAAAGTGGGACCTGCTTCTCGTTAGATGATTGTCATACACT TATTGACTTTTTCAAAAAGTCGCTTGACAAACACGAGGACTGGAAGAACTTTGGGTTTAAATTCTCTGATACGAGC ACCTATGAGGACATGTCAGGTTTCTACAAAGAGGTCGAGAACCAGGGGTATAAGTTGAGTTTTAAGCCTATCGATG CGACTTATGTAGATCAGTTGGTAGACGAAGGAAAAATTTTTCTTTTTCAAATTTACAATAAAGATTTCTCCGAACA CAGCAAGGGGACTCCTAATATGCACACTTTGTATTGGAAGATGCTGTTCGACGAGACTAACCTGGGAGACGTTGTC TACAAGTTGAATGGAGAGGCGGAGGTATTTTTTCGCAAGGCGTCTATTAACGTTTCGCACCCCACGCACCCCGCCA ACATTCCTATCAAGAAGAAAAACCTGAAGCATAAGGACGAAGAGCGCATTCTTAAATATGACCTGATCAAGGATAA GCGCTATACTGTCGATCAATTCCAGTTTCACGTACCGATTACTATGAATTTCAAAGCAGATGGAAACGGTAATATC AATCAAAAGGCTATTGACTATTTACGTAGTGCTTCTGACACTCACATCATCGGAATTGATCGCGGAGAGCGCAATC TGTTGTATCTTGTGGTCATCGATGGGAATGGCAAAATCTGTGAACAGTTCTCGCTGAATGAAATTGAGGTGGAATA TAATGGCGAAAAGTACTCTACGAATTATCATGATTTGCTTAATGTGAAGGAGAACGAACGTAAGCAAGCGCGTCAG TCATGGCAGTCTATTGCTAACATTAAGGACTTAAAGGAAGGGTATTTGAGTCAAGTGATTCATAAAATTAGTGAAT TAATGGTAAAGTATAATGCGATTGTTGTCTTAGAGGATCTGAACGCGGGCTTCATGCGTGGGCGTCAGAAAGTGGA AAAGCAAGTCTATCAAAAATTCGAAAAGAAGTTAATCGAGAAATTAAACTACCTGGTATTCAAAAAGCAGTCGTCC GATTTGCCCGGAGGATTAATGCATGCTTATCAGCTTGCGAATAAATTTGAGAGTTTCAATACGCTGGGGAAACAGA GCGGGTTTTTATTCTATATCCCTGCCTGGAATACAAGTAAGATGGACCCTGTGACAGGCTTCGTCAATTTGTTTGA CGTTAAGTATGAATCGGTCGACAAAGCAAAAAGTTTCTTCAGCAAATTTGACTCCATCCGCTATAATGTTGAACGC GATATGTTTGAGTGGAAATTTAATTATGGGGAATTCACCAAAAAGGCGGAAGGCACAAAAACTGATTGGACAGTGT GCTCTTATGGCAACCGTATTATTACGTTTCGTAACCCTGATAAGAACTCCCAATGGGATAACAAAGAGATCAACCT TACGGAAAATATCAAACTGTTATTCGAACGTTTTGGGATCGATCTTTCTTCCAACTTAAAGGACGAAATCATGCAA CGCACTGAGAAGGAGTTTTTTATCGAACTGATTTCGTTGTTCAAGCTGGTACTTCAGATGCGTAATTCCTGGACAG GAACGGATATTGATTATTTAGTATCCCCCGTTTGCAATGAGAATGGCGAATTTTTTGACTCACGCAACGTCGACGA GACCTTGCCTCAAAACGCAGACGCTAACGGGGCTTACAACATCGCACGCAAGGGGATGATCCTTTTAGACAAAATC AAGAAGAGCAACGGTGAGAAGAAGCTGGCCTTGTCAATTACTAATCGTGAGTGGCTTTCATTTGCGCAAGGTTGTT GTAAAAACGGCTGA SEQ ID NO: 77 ART19_Optimized2 ATGGAAACGTTTAGTGGGTTCACAAACCTTTATCCGTTATCAAAAACTCTTCGCTTCCGTCTTATTCCCGTTGGCG AGACGTTAAAATATTTCATTGGCTCAGGGATCTTAGAGGAAGATCAACATCGCGCCGAGTCTTACGTTAAGGTGAA AGCGATTATCGACGATTACCATCGCGCTTATATTGAGAACAGCTTAAGCGGGTTCGAATTACCTCTGGAATCTACT GGGAAGTTTAACAGCCTTGAGGAATATTACCTTTATCATAACATTCGCAATAAGACAGAAGAGATTCAGAATTTGT CCTCCAAAGTACGTACCAATCTTCGCAAACAAGTCGTCGCTCAGTTGACTAAGAACGAAATCTTTAAACGCATCGA CAAAAAGGAACTGATCCAGTCTGACCTGATTGATTTTGTGAAGAATGAGCCGGATGCCAATGAGAAGATCGCTCTG ATTTCCGAATTTCGTAATTTTACAGTGTACTTTAAGGGTTTCCATGAGAATCGTCGCAACATGTACAGTGACGAAG AAAAATCTACGTCCATTGCTTTCCGTTTAATTCACGAGAATCTGCCTAAATTCATTGATAATATGGAAGTATTCGC TAAAATTCAAAATACTTCAATTAGCGAAAATTTTGACGCGATTCAAAAAGAATTATGCCCGGAACTGGTGACATTA TGTGAAATGTTTAAACTTGGGTATTTTAACAAGACCTTATCTCAAAAACAAATTGATGCGTATAATACAGTCATCG GTGGAAAGACTACTAGCGAAGGAAAAAAGATCAAAGGGCTTAATGAATATATTAACCTTTATAACCAACAGCATAA GCAAGAGAAGCTTCCCAAGATGAAACTTCTGTTCAAGCAGATTTTGTCGGACCGTGAGAGCGCTTCATGGTTGCCG GAGAAGTTCGAGAACGACTCCCAAGTAGTGGGAGCTATCGTAAACTTTTGGAATACTATCCATGACACAGTTCTTG CGGAAGGCGGGCTTAAGACCATTATCGCCTCCCTTGGTTCATATGGCTTAGAAGGGATCTTTTTAAAGAATGACCT GCAGCTTACCGACATCTCTCAAAAAGCCACAGGAAGTTGGGGAAAGATCTCCAGTGAAATTAAACAAAAAATCGAA GTGATGAACCCTCAAAAAAAAAAAGAGTCGTATGAGACCTATCAGGAACGCATTGATAAAATCTTTAAATCATATA AGTCGTTTTCACTGGCTTTTATCAACGAGTGTCTGCGTGGAGAGTATAAAATCGAAGATTATTTCCTGAAACTGGG AGCCGTGAACAGTTCCTCTCTTCAGAAAGAGAACCACTTCTCACACATTTTGAATACGTATACAGATGTAAAGGAA GTAATCGGCTTTTACTCGGAAAGCACGGATACGAAACTTATCCGCGATAACGGATCTATTCAAAAGATTAAATTGT TTTTAGACGCGGTAAAAGATCTGCAGGCGTACGTAAAGCCTTTGCTTGGAAACGGGGACGAGACTGGGAAAGACGA ACGTTTTTACGGTGACCTTATCGAGTACTGGTCACTGTTAGATCTGATTACTCCACTGTATAATATGGTGCGCAAC TACGTGACACAAAAGCCTTATTCGGTTGATAAAATCAAGATTAACTTTCAGAATCCAACTTTGCTTAATGGATGGG ACCTGAACAAAGAGACTGATAACACGTCAGTCATCCTTCGTCGTGACGGGAAGTATTACTTGGCTATCATGAACAA TAAATCACGTAAGGTCTTCTTAAAGTACCCGTCGGGGACAGATCGCAACTGCTACGAAAAAATGGAGTACAAGTTG CTTCCTGGAGCGAACAAGATGCTTCCGAAAGTCTTCTTCAGTAAATCGCGCATTAATGAGTTCATGCCAAATGAAC GCCTTCTTTCCAACTACGAGAAAGGGACACATAAGAAGAGTGGTACCTGTTTCTCGTTAGACGACTGCCATACCCT GATTGATTTCTTCAAGAAGAGTCTTGACAAGCATGAAGACTGGAAAAATTTTGGGTTCAAATTTTCTGATACTTCC ACGTACGAGGACATGTCTGGATTCTATAAAGAAGTGGAGAACCAAGGCTACAAGTTGTCTTTCAAACCAATTGATG CAACGTATGTAGACCAACTGGTTGATGAAGGCAAAATTTTCCTGTTCCAGATTTATAATAAAGATTTCTCGGAACA CTCTAAGGGGACCCCCAATATGCACACGTTATATTGGAAGATGTTATTCGACGAGACTAACCTTGGCGACGTGGTT TATAAATTGAATGGTGAGGCGGAGGTGTTCTTTCGTAAAGCAAGCATCAACGTTAGTCACCCAACTCATCCTGCAA ACATTCCAATTAAGAAGAAGAATTTGAAGCACAAGGATGAGGAGCGCATTTTAAAGTACGATCTTATTAAAGATAA ACGTTATACGGTCGACCAGTTTCAATTTCATGTTCCAATCACGATGAATTTTAAGGCCGATGGTAATGGAAACATT AACCAGAAGGCAATTGATTATCTTCGCTCTGCATCGGACACGCACATCATTGGAATTGACCGTGGGGAACGCAACT TGTTATATCTGGTGGTGATCGATGGTAACGGAAAAATTTGTGAACAGTTCTCGTTGAACGAGATTGAAGTCGAATA TAACGGCGAGAAGTATTCGACGAATTACCACGATTTGCTGAATGTGAAAGAGAATGAACGCAAGCAAGCGCGCCAA AGTTGGCAGTCAATTGCGAATATCAAGGACTTAAAAGAAGGCTATCTGTCTCAGGTAATTCATAAAATCTCCGAAC TTATGGTTAAATACAACGCGATTGTGGTCTTGGAAGATTTGAATGCCGGGTTTATGCGTGGGCGCCAAAAGGTGGA AAAGCAGGTGTACCAAAAGTTTGAGAAAAAACTGATCGAAAAATTAAATTATTTGGTATTCAAGAAACAGTCTTCA GACCTGCCTGGTGGACTTATGCACGCATACCAATTAGCCAACAAGTTTGAAAGTTTTAACACCCTGGGTAAACAGT CTGGCTTCTTGTTTTATATCCCTGCCTGGAATACATCAAAGATGGATCCAGTAACTGGTTTTGTGAACTTATTTGA TGTAAAATATGAATCCGTAGATAAAGCGAAGTCTTTTTTTAGTAAGTTTGATTCAATCCGCTACAATGTTGAGCGC GATATGTTCGAGTGGAAGTTCAACTATGGTGAGTTCACCAAGAAAGCAGAAGGAACCAAGACGGACTGGACGGTTT GTTCCTACGGCAATCGTATCATCACTTTCCGCAACCCAGATAAGAACTCGCAATGGGATAACAAGGAGATCAATTT GACGGAAAACATTAAATTGTTATTTGAGCGTTTCGGCATTGACCTGTCGAGTAACCTGAAAGATGAAATTATGCAG CGTACAGAAAAAGAGTTTTTTATTGAATTAATCTCGTTGTTTAAACTTGTCTTACAAATGCGCAACAGTTGGACAG GTACGGACATTGATTATTTGGTATCCCCAGTATGCAACGAGAACGGGGAGTTTTTTGACTCCCGCAACGTCGACGA GACTTTGCCGCAGAACGCCGATGCGAACGGCGCCTACAATATTGCTCGTAAGGGTATGATCTTATTGGATAAAATT AAAAAATCAAATGGTGAAAAGAAGTTAGCACTGAGTATCACCAATCGTGAGTGGTTAAGTTTCGCACAGGGGTGCT GCAAGAACGGATGA SEQ ID NO: 78 ART19_Optimized3 ATGGAAACGTTCTCCGGATTTACAAATTTATACCCATTAAGTAAGACGTTACGTTTTCGTCTTATCCCGGTTGGTG AGACGTTAAAATACTTTATCGGCAGCGGGATCTTGGAAGAAGACCAACATCGCGCCGAATCATATGTCAAGGTAAA GGCTATTATTGACGATTACCATCGCGCTTATATCGAGAACTCCCTTAGTGGTTTCGAACTTCCCCTTGAGTCCACA GGGAAGTTTAATAGTTTGGAGGAATACTACTTGTACCATAATATCCGTAATAAAACCGAAGAAATCCAGAACCTTA GCAGCAAGGTGCGTACCAACTTGCGCAAACAGGTAGTCGCCCAACTTACTAAAAACGAAATCTTTAAACGCATTGA TAAGAAAGAGTTGATTCAGAGTGATTTAATCGATTTTGTAAAGAACGAACCCGATGCTAATGAAAAGATTGCCCTT ATTTCCGAATTCCGTAATTTTACAGTATATTTTAAGGGATTTCACGAAAACCGCCGCAATATGTACTCCGACGAGG AAAAGTCAACTAGTATCGCGTTTCGTTTGATTCATGAAAACTTGCCCAAATTTATTGATAACATGGAGGTTTTTGC GAAGATTCAAAACACAAGCATTTCCGAGAACTTCGATGCGATTCAAAAGGAGCTTTGCCCGGAATTGGTCACATTA TGTGAGATGTTCAAGCTGGGCTATTTCAACAAGACTTTATCTCAGAAGCAGATCGACGCTTACAATACAGTGATCG GAGGCAAAACCACATCGGAAGGAAAGAAAATCAAGGGCTTGAACGAGTATATCAACCTGTATAACCAGCAACATAA GCAAGAAAAACTTCCCAAGATGAAATTACTTTTCAAGCAAATCTTATCTGACCGTGAGTCGGCCAGCTGGCTTCCT GAAAAGTTTGAAAACGACTCACAAGTTGTCGGTGCAATCGTTAATTTTTGGAACACCATTCATGATACGGTCTTAG CAGAGGGGGGCTTAAAGACTATTATCGCTTCGTTGGGGTCGTACGGTCTGGAAGGTATTTTTTTGAAAAACGATTT ACAATTAACAGACATCAGCCAAAAAGCCACGGGATCCTGGGGGAAGATTTCAAGTGAGATTAAACAGAAAATCGAA GTAATGAATCCCCAGAAAAAGAAGGAATCTTATGAAACTTACCAGGAACGTATCGATAAGATTTTTAAATCGTATA AAAGTTTTTCTTTAGCTTTTATTAATGAATGCCTTCGCGGTGAATACAAGATCGAAGACTACTTCCTTAAGTTAGG TGCGGTCAATAGCAGTTCTTTACAAAAGGAGAACCATTTCTCCCACATTCTTAATACATATACGGACGTTAAAGAA GTCATTGGATTTTACTCTGAGTCGACAGACACTAAATTGATCCGCGACAACGGTTCGATTCAAAAAATTAAGTTAT TCCTGGACGCCGTGAAGGATCTTCAAGCGTACGTCAAGCCTCTGTTGGGGAATGGCGATGAAACGGGCAAGGATGA ACGCTTTTACGGTGATTTGATCGAGTACTGGTCGCTTCTTGATTTAATTACTCCACTTTATAATATGGTGCGTAAT TATGTGACTCAGAAACCCTATAGCGTAGACAAAATTAAAATCAATTTCCAAAACCCTACGCTTCTGAACGGGTGGG ACTTGAATAAAGAAACAGACAACACTTCAGTCATTTTGCGCCGTGATGGGAAGTACTATTTAGCGATCATGAACAA CAAGTCCCGCAAGGTATTTCTTAAATACCCGTCGGGAACGGACCGTAATTGTTATGAAAAGATGGAGTACAAACTG TTACCAGGGGCAAATAAGATGTTACCTAAAGTATTCTTCAGTAAGTCGCGCATCAATGAGTTTATGCCCAATGAAC GCCTTTTGAGCAACTACGAAAAAGGGACGCATAAAAAGTCCGGTACTTGCTTCAGTTTGGATGATTGTCACACTTT GATCGACTTTTTCAAGAAGTCGCTGGATAAGCATGAAGATTGGAAGAACTTCGGCTTTAAATTCTCCGATACGTCT ACTTATGAGGACATGTCGGGGTTTTACAAGGAGGTGGAGAATCAAGGGTACAAGTTATCATTTAAGCCTATCGATG CCACGTACGTTGATCAGTTAGTAGATGAAGGTAAAATTTTTTTGTTTCAAATCTATAACAAAGATTTCTCAGAACA CTCGAAGGGCACTCCCAATATGCACACTCTTTATTGGAAGATGCTGTTTGACGAAACGAATTTGGGTGACGTGGTT TATAAGCTTAACGGCGAGGCGGAAGTGTTCTTTCGTAAGGCAAGTATTAACGTCTCTCACCCAACCCACCCGGCAA ATATTCCGATCAAAAAGAAAAATCTGAAGCACAAAGACGAGGAGCGCATCTTAAAATACGATCTTATCAAGGATAA ACGTTACACGGTAGACCAGTTCCAGTTCCACGTACCGATCACAATGAACTTCAAGGCAGATGGAAACGGGAACATC AATCAGAAAGCGATCGATTACTTGCGCAGCGCGTCAGATACACATATTATTGGGATTGATCGTGGTGAACGCAACC TGCTGTATCTTGTTGTCATTGATGGCAACGGGAAAATTTGTGAACAGTTTTCTTTGAACGAGATTGAGGTGGAGTA TAACGGAGAGAAGTATAGCACCAATTACCATGATTTGTTGAACGTGAAAGAAAATGAACGTAAACAGGCGCGCCAG TCTTGGCAGTCCATCGCCAATATTAAAGACTTGAAAGAAGGCTACTTATCACAAGTAATCCACAAAATTAGCGAAT TAATGGTAAAATATAATGCCATCGTTGTCTTAGAGGACTTAAACGCAGGATTCATGCGTGGCCGCCAAAAGGTCGA GAAGCAGGTGTACCAAAAATTTGAGAAAAAACTGATCGAGAAGCTGAACTACTTAGTTTTTAAGAAACAATCGAGC GATTTACCAGGCGGCTTGATGCACGCATATCAGTTGGCAAATAAGTTCGAAAGCTTTAATACTCTTGGGAAACAAT CGGGCTTTCTGTTTTATATCCCCGCATGGAACACGTCAAAAATGGACCCTGTGACAGGGTTCGTGAATTTATTTGA TGTTAAGTACGAATCAGTCGATAAAGCGAAAAGCTTTTTCTCCAAATTCGATAGTATCCGCTACAACGTCGAGCGC GACATGTTTGAATGGAAGTTCAATTACGGGGAGTTTACCAAGAAAGCCGAAGGCACCAAGACAGATTGGACTGTGT GCTCCTATGGGAACCGCATTATCACCTTCCGTAATCCCGACAAGAACTCTCAATGGGATAACAAGGAGATCAACTT GACCGAAAATATTAAACTGCTTTTTGAACGTTTTGGAATCGACCTTAGTTCCAACCTTAAGGATGAAATTATGCAG CGTACAGAAAAGGAATTTTTCATCGAGCTGATCTCCCTTTTTAAACTTGTCCTTCAGATGCGCAACTCATGGACTG GGACGGACATCGATTACCTGGTTTCCCCCGTTTGTAACGAGAACGGCGAGTTCTTTGATTCTCGCAACGTCGACGA GACGCTGCCTCAGAACGCAGATGCGAACGGGGCCTATAATATTGCACGTAAGGGCATGATTCTGCTGGACAAGATT AAGAAGAGTAATGGGGAAAAAAAGTTAGCACTTTCCATCACGAATCGCGAATGGTTATCCTTTGCTCAGGGTTGCT GCAAAAATGGATGA SEQ ID NO: 79 ART20_WT ATGGAAACATTTTCTGGATTTACAAATTTGTATCCTTTGTCAAAGACATTGCGGTTTAGATTGATTCCTG TAGGGGAAACATTGAAACATTTTATTGATAGTGGAATATTGGAAGAAGACCAGCATAGGGCTGAGAGTTA TGTGAAGGTAAAGGCTATTATTGATGACTATCATAGAGCTTATATTGAGAATTCTTTATCAGGCTTTGAA TTACCTTTGGAAAGTACGGGTAAATTCAATTCTTTGGAGGAATATTATTTGTATCATAATATTCGCAATA AAACGGAAGAAATTCAGAACTTGTCATCCAAGGTCAGAACTAATCTGAGGAAACAAGTCGTGGTTCAACT AACTAAGAACGAAATATTTAAAAGAATTGATAAAAAAGAGCTGATTCAGAGTGATTTGATTGATTTTGTT AAAAATGAGCCTGATGCAAATGAGAAAATAGCACTAATCTCAGAATTTCGTAATTTTACTGTATACTTCA AAGGTTTTCATGAAAACCGTAGAAATATGTATTCCGATGAAGAAAAGTCCACGTCTATAGCCTTTCGTCT GATTCATGAGAATCTTCCCAAGTTTATTGATAATATGGAAGTGTTTGCAAAAATACAGAATACTTCTATC TCGGAGAATTTTGATGCTATACAGAAAGAACTTTGCCCGGAGTTGGTAACCCTTTGTGAAATGTTTAAGT TGGGGTATTTTAATAAGACTTTAAGTCAGAAACAAATAGATGCTTATAATACTGTTATAGGTGGTAAAAC CACATCAGAAGGTAAAAAGATTAAAGGTCTTAATGAATATATTAATCTTTATAACCAGCAGCATAAGCAA GAGAAATTACCCAAGATGAAGCTTCTTTTCAAGCAGATACTTAGTGATAGAGAAAGTGCGTCATGGCTGC CAGAGAAGTTTGAGAATGATAGTCAGGTTGTCGGTGCAATGGTGAATTTCTGGAATACTATTCATGATAC AGTTCTTGCAGAAGGAGGATTGAAAACGATTATTGCTTCATTGGGTAGTTATGGCCTTGAAGGTATTTTC CTAAAGAATGATTTACAACTTACTGATATATCACAAAAGGCAACAGGTAGTTGGAGTAAAATATCTTCTG AGATAAAGCAAAAAATAGAGGTGATGAATCCTCAAAAGAAAAAAGAGTCTTATGAGAGTTATCAAGAACG TATAGATAAGCTATTCAAGTCTTATAAAAGTTTTTCTTTAGCTTTTATAAATGAGTGCCTTCGTGGTGAG TATAAGATTGAAGATTATTTTCTCAAGTTAGGGGCTGTGAATAGCAGTTCGTTACAGAAAGAAAATCATT TTTCGCATATTCTCAATGCATATACAGATGTAAAAGAGGCGATTGGCTTTTACTCTGAATCGACTGACAC CAAATTAATACAAGATAATGATTCCATTCAAAAGATAAAACAGTTCCTTGACGCAGTTAAAGACTTACAG GCTTATGTAAAACCATTATTGGGTAATGGTGATGAAACCGGTAAGGATGAAAGGTTTTATGGCGATTTGA TTGAGTATTGGAGTCTGCTTGACTTGATTACTCCTTTATATAATATGGTTCGTAATTATGTCACTCAGAA GCCGTATTCTGTAGATAAAATAAAAATAAATTTCCAGAATCCTACTTTATTGAATGGTTGGGACCTTAAT AAAGAAACGGATAATACATCTGTAATATTGCGTCGTGATGGCAAATATTATCTGGCCATAATGAATAACA AATCCAGAAAAGTCTTTTTGAAATATCCATCAGGGACAGATGGAAATTGCTATGAGAAGATGGAGTATAA ACTTTTACCAGGTGCTAATAAGATGCTACCTAAGGTCTTCTTTTCAAAATCAAGGATAAATGAATTCATG CCTAATGAGCGTTTGTTGTCAAATTATGAAAAGGGCACGCATAAAAAGTCGGGTATTTGTTTTAGTTTGG ATGATTGTCATACTTTGATAGATTTCTTTAAGAAGTCTTTGGACAAACATGAGGATTGGAAAAACTTTGG CTTCAAGTTCTCTGATACTTCTACATATGAAGATATGAGTGGTTTTTATAAAGAAGTAGAGAATCAAGGT TATAAATTATCCTTTAAGCCGATTGATGCTACGTATGTGGATCAGCTTGTTGATGAAGGTAAGATTTTTC TGTTTCAGATTTATAACAAGGATTTTTCTGAGCATAGCAAAGGTACGCCTAATATGCATACCTTGTATTG GAAAATGTTGTTTGATGAAACAAATCTTGGGGATGTGGTATATAAACTAAATGGTGAGGCTGAAGTCTTT TTCCGTAAGGCAAGTATAAATGTATCACATCCAACTCATCCGGCTAACATACCCATAAAGAAAAAGAATC TTAAACATAAAGATGAAGAAAGAATTCTTAAATATGACTTGATTAAAGATAAGCGTTATACCGTCGACCA GTTCCAGTTTCATGTGCCAATAACCATGAATTTCAAGGCGGATGGAAATGGAAATATAAACCAGAAAGCG ATAGACTATTTATGTTCGGCATCAGATACTCATATAATAGGGATTGACCGTGGTGAACGAAACTTGTTAT ATCTTGTAGTGATTGATGGAAATGGAAAAATCTGTGAGCAATTCTCTTTAAATGAAATAGAAGTTGAATA TAATGGTGAAAAGTATTCAACAAATTACCATGATTTGCTTAATGTCAAGGAGAATGAAAGAAAGCAGGCA AGACAGAGCTGGCAAAGTATAGCTAACATAAAAGACTTGAAAGAAGGCTATTTAAGTCAGGTTATTCATA AGATTTCTGAATTGATGGTCAAATATAATGCGATTGTGGTGCTTGAGGATTTGAACGCTGGATTTATGCG TGGCCGACAAAAGGTTGAAAAGCAGGTTTATCAGAAATTTGAAAAGAAACTCATTGAGAAGTTAAATTAT CTCGTATTCAAGAAACAGTCTTCTGATTTGCCTGGTGGGCTTATGCATGCTTATCAGTTAGCTAATAAAT TTGAGAGTTTTAATGCTTTAGGTAAACAAAGCGGATTTCTCTTTTATATCCCCGCCTGGAATACCAGTAA AATGGATCCGGTAACAGGTTTTGTAAATTTGTTTGATGTGAAGTATGAAAGTGTTGATAAGGCAAAAAGT TTTTTCAGTAAGTTCGATTCTATGAGGTATAATGTGGAAAGAGATATGTTTGAATGGAAATTCAATTATG GTGAATTCACGAAAAAAGCCGAAGGAACTAAAACTGATTGGACTGTTTGTTCCTACGGTAATAGAATTAT CACCTTTAGAAATCCGGATAAAAATTCTCAATGGGATAATAAAGAAATAAATCTTACCGAAAATATTAAG CTGCTGTTTGAAAGGTTTGGTATCGACTTATCTTCAAATCTGAAAGATGAGATAATGCAACGTACAGAAA AAGAATTCTTTATCGAACTTATATCCCTATTTAAGCTTGTGTTACAGATGCGTAATAGTTGGACAGGTAC TGATATAGATTATCTGGTATCACCTGTATGCAATGAAAACGGTGAATTTTTTGATAGCAGAAACGTAGAT GAAACACTTCCGCAAAATGCGGACGCAAACGGAGCATATAACATTGCAAGAAAAGGAATGATACTTCTTG ATAAGATTAAGAAAAGTAACGGTGAGAAGAAGCTTGCTCTATCTATAACTAATAGAGAATGGCTTTCATT TGCTCAAGGTTGTTGCAAAAATGGATGA SEQ ID NO: 80 ART20_Optimized1 ATGGAAACGTTTAGTGGGTTCACGAATCTTTACCCGTTATCCAAAACGTTGCGTTTTCGCCTTATCCCAGTAGGGG AGACGTTAAAACATTTTATCGATTCGGGCATCCTGGAGGAAGATCAACACCGCGCCGAGTCATACGTCAAGGTGAA AGCGATTATTGACGACTACCACCGTGCATACATTGAAAATTCACTTTCTGGCTTCGAATTACCCCTTGAATCTACC GGGAAATTTAACTCCCTTGAGGAGTACTATTTATATCACAACATTCGTAACAAAACAGAAGAAATTCAAAATTTGT CTTCCAAAGTACGCACCAACCTTCGTAAACAGGTTGTGGTCCAATTGACGAAAAACGAAATCTTCAAACGCATCGA CAAGAAAGAATTGATCCAGAGCGACCTGATCGATTTTGTTAAAAACGAACCCGATGCTAACGAGAAGATTGCACTG ATTTCTGAGTTCCGCAATTTTACAGTTTACTTCAAAGGCTTCCACGAAAACCGTCGTAACATGTACTCCGATGAAG AGAAATCGACATCCATCGCGTTCCGCTTGATCCACGAAAATTTACCGAAATTCATTGATAATATGGAGGTATTCGC AAAGATTCAAAATACGTCCATTTCAGAAAACTTCGATGCAATCCAAAAGGAGCTGTGCCCCGAATTGGTTACCCTG TGTGAAATGTTTAAGTTAGGTTATTTTAATAAGACCTTGTCGCAAAAACAAATCGACGCCTACAACACTGTTATTG GTGGAAAGACAACGTCGGAGGGAAAGAAAATTAAGGGGTTGAATGAGTATATTAATCTTTATAATCAACAACACAA GCAGGAGAAGTTACCAAAGATGAAATTGCTTTTCAAACAAATCCTTTCTGACCGTGAAAGTGCAAGCTGGCTTCCC GAGAAATTTGAAAACGACTCCCAGGTAGTGGGTGCTATGGTAAATTTTTGGAATACCATCCACGACACCGTGTTGG CTGAAGGTGGCCTTAAAACTATCATCGCAAGTCTTGGGTCGTATGGGCTGGAGGGTATCTTCTTGAAGAACGATCT TCAGCTTACAGACATTTCCCAGAAAGCAACAGGTTCCTGGAGCAAGATCTCTTCGGAAATTAAGCAAAAGATCGAG GTCATGAACCCACAGAAAAAAAAGGAATCCTACGAGAGTTATCAAGAACGTATCGATAAACTGTTTAAAAGCTATA AAAGTTTTTCGCTGGCCTTCATCAACGAGTGCCTGCGTGGTGAGTATAAAATCGAAGACTACTTTCTGAAATTGGG TGCTGTCAATAGTTCATCGCTGCAAAAAGAGAATCACTTCAGTCACATTTTAAACGCCTATACAGATGTCAAAGAG GCGATTGGTTTTTACAGTGAGAGTACAGATACCAAATTGATTCAGGACAACGATAGCATCCAAAAGATCAAGCAAT TCTTGGATGCCGTCAAGGACTTGCAAGCGTACGTAAAGCCGCTTCTTGGCAACGGCGACGAGACAGGCAAAGATGA GCGCTTCTATGGTGATTTGATTGAATATTGGTCTCTGTTAGACTTAATCACACCGCTGTATAATATGGTGCGTAAT TACGTTACCCAGAAGCCTTACTCCGTAGATAAAATTAAAATCAACTTTCAGAATCCCACCCTTCTTAACGGATGGG ACCTGAATAAAGAAACCGACAATACTAGTGTTATTCTGCGTCGTGACGGCAAATATTATTTGGCAATTATGAATAA CAAATCGCGTAAGGTATTTTTGAAATACCCTTCCGGAACTGATGGAAACTGTTATGAGAAGATGGAATATAAATTG TTACCCGGTGCCAACAAGATGCTTCCAAAAGTTTTTTTTTCTAAATCCCGCATCAACGAGTTCATGCCGAACGAAC GTCTTCTGAGTAACTACGAAAAAGGGACGCATAAAAAGTCAGGTATTTGTTTCTCGCTGGATGACTGTCACACCCT TATCGACTTTTTTAAGAAGAGCTTAGATAAGCACGAAGATTGGAAAAATTTTGGTTTCAAGTTTTCAGACACATCT ACTTACGAAGATATGTCAGGTTTCTACAAAGAAGTAGAGAATCAGGGCTATAAGTTATCGTTCAAGCCCATCGATG CAACCTACGTGGATCAGCTTGTTGATGAAGGGAAGATTTTTTTGTTTCAAATCTACAACAAAGATTTCTCAGAGCA CTCAAAAGGAACCCCGAATATGCACACATTATATTGGAAAATGTTATTTGATGAGACGAACCTGGGGGACGTAGTA TACAAACTTAACGGTGAAGCCGAAGTTTTCTTTCGTAAAGCTAGCATTAACGTTTCGCACCCTACTCACCCAGCAA ATATTCCGATCAAGAAGAAGAATCTGAAACACAAGGACGAAGAACGCATTTTGAAATATGACCTGATCAAAGACAA GCGCTACACAGTCGATCAGTTTCAATTTCACGTTCCAATCACCATGAATTTTAAGGCCGACGGTAATGGGAATATT AACCAGAAGGCTATCGACTACCTTTGTTCGGCTAGCGACACACACATTATTGGGATTGACCGCGGGGAACGCAATC TTTTGTACCTTGTTGTTATCGACGGTAACGGGAAAATCTGTGAGCAATTCTCTCTTAATGAGATCGAAGTAGAATA TAATGGAGAAAAGTATAGCACGAACTACCATGACCTGTTAAATGTGAAAGAAAATGAGCGCAAGCAGGCACGCCAA TCGTGGCAGAGTATTGCAAACATTAAAGATCTGAAGGAGGGCTACCTTTCACAAGTCATCCACAAAATCTCTGAGT TGATGGTGAAATACAATGCGATTGTAGTATTGGAAGACCTTAATGCTGGATTTATGCGTGGACGCCAGAAGGTGGA AAAGCAAGTTTACCAAAAGTTCGAGAAGAAACTTATTGAGAAGCTGAACTACCTGGTTTTCAAGAAGCAGTCCAGC GACTTGCCCGGTGGTCTGATGCATGCATATCAGCTTGCGAATAAGTTTGAGAGCTTCAATGCATTGGGAAAGCAGT CAGGCTTTCTGTTTTACATCCCTGCTTGGAATACATCAAAAATGGATCCCGTGACTGGGTTCGTCAACTTATTCGA TGTAAAGTATGAGTCGGTAGACAAAGCTAAGAGCTTCTTTTCAAAATTCGATAGCATGCGTTATAATGTTGAGCGT GACATGTTCGAGTGGAAGTTTAATTATGGGGAATTTACCAAGAAAGCTGAAGGTACGAAAACCGACTGGACTGTGT GCTCGTATGGGAATCGTATTATCACCTTCCGTAACCCAGATAAGAACTCGCAGTGGGATAACAAAGAAATCAATCT GACGGAAAACATCAAACTTTTATTCGAACGTTTCGGGATTGACCTGTCTAGCAACCTGAAGGACGAAATCATGCAA CGCACTGAAAAGGAATTCTTCATTGAGTTGATTTCGTTATTTAAGCTTGTATTGCAGATGCGCAACAGTTGGACGG GCACCGACATCGATTACTTGGTATCTCCAGTTTGTAATGAAAATGGCGAGTTTTTTGACAGTCGTAATGTTGATGA GACTTTACCCCAGAACGCTGATGCCAACGGGGCTTATAATATCGCACGCAAGGGGATGATCCTGTTGGATAAAATC AAGAAAAGCAATGGTGAAAAAAAGTTAGCGCTGTCGATTACCAATCGTGAATGGCTGAGCTTTGCTCAAGGTTGCT GTAAGAATGGCTGA SEQ ID NO: 81 ART20_Optimized2 ATGGAAACGTTCTCAGGTTTCACCAACTTATATCCATTGTCAAAAACTCTTCGCTTTCGCCTGATCCCCGTCGGGG AGACGTTAAAGCACTTCATCGACTCTGGAATTTTGGAAGAGGACCAACATCGTGCTGAGTCTTACGTAAAAGTGAA GGCTATTATCGATGATTACCACCGTGCATACATCGAAAATAGTTTATCTGGGTTCGAACTGCCATTGGAATCGACA GGCAAATTTAACAGCTTAGAAGAATACTACTTATATCACAACATCCGTAATAAAACAGAAGAGATTCAGAACCTTT CCTCGAAGGTGCGCACGAACTTACGCAAACAAGTCGTCGTTCAATTAACCAAGAATGAAATCTTTAAGCGTATTGA TAAAAAAGAGTTAATTCAATCTGATCTGATTGATTTTGTTAAAAACGAGCCTGACGCGAACGAAAAGATTGCGTTG ATTTCGGAATTTCGTAATTTTACAGTTTATTTCAAAGGGTTTCACGAGAACCGCCGCAATATGTACTCAGACGAGG AGAAGTCAACATCCATCGCGTTCCGTCTGATCCACGAAAATTTGCCCAAATTTATTGACAACATGGAGGTCTTTGC TAAGATCCAGAATACGTCCATTAGTGAGAACTTTGACGCCATTCAGAAGGAACTTTGTCCTGAGTTGGTAACCTTA TGTGAAATGTTTAAATTGGGGTACTTTAACAAAACTCTTTCTCAAAAGCAGATCGATGCTTATAATACAGTTATCG GTGGCAAGACAACCTCCGAAGGCAAAAAGATCAAGGGATTGAACGAATATATTAACCTTTATAACCAGCAGCACAA ACAGGAAAAACTGCCGAAAATGAAACTGTTGTTTAAGCAAATTTTATCAGACCGTGAGTCCGCTAGCTGGTTGCCG GAAAAGTTTGAAAACGACTCGCAGGTCGTAGGGGCTATGGTAAATTTCTGGAATACAATCCATGATACCGTCCTTG CAGAAGGTGGGTTAAAAACGATCATCGCTAGTCTTGGCTCCTACGGCTTGGAAGGTATCTTCTTAAAAAACGATCT TCAGCTGACCGACATCTCACAAAAGGCCACTGGGTCATGGTCTAAAATTTCGAGCGAGATCAAACAAAAAATCGAG GTAATGAACCCGCAGAAAAAGAAGGAGAGTTATGAGAGCTACCAGGAACGCATCGATAAACTGTTTAAGAGCTATA AAAGCTTTTCGCTTGCTTTTATTAACGAGTGTTTACGTGGCGAATATAAGATCGAAGATTACTTTCTGAAGCTTGG AGCGGTAAACAGTAGTAGCCTGCAAAAAGAAAACCATTTCTCCCACATTCTTAATGCATACACAGATGTAAAAGAA GCTATCGGATTCTACTCCGAGTCAACCGACACGAAATTGATTCAAGATAATGACTCGATCCAGAAGATTAAACAAT TTCTGGATGCGGTAAAGGACTTACAGGCATACGTTAAACCACTGCTTGGCAACGGCGACGAAACGGGAAAAGATGA GCGTTTCTATGGGGACTTAATTGAGTATTGGTCATTACTGGATTTAATCACCCCACTTTACAATATGGTGCGTAAC TATGTGACACAAAAGCCATATTCTGTGGACAAAATCAAGATCAACTTTCAGAACCCTACTCTTCTGAATGGCTGGG ATCTTAACAAAGAAACGGACAATACGAGTGTGATTCTGCGTCGCGATGGAAAATATTATCTTGCAATCATGAATAA CAAATCTCGCAAGGTGTTTTTGAAATACCCATCGGGCACAGACGGAAACTGCTATGAAAAGATGGAGTATAAACTG CTTCCCGGGGCCAACAAGATGCTTCCCAAAGTATTTTTCTCAAAATCCCGTATCAATGAGTTTATGCCTAATGAGC GTCTTTTGTCCAACTACGAGAAGGGTACCCATAAGAAAAGTGGAATCTGCTTTAGTTTGGACGATTGTCATACATT AATCGATTTCTTCAAGAAAAGCTTAGACAAACACGAGGATTGGAAAAATTTTGGTTTCAAATTCAGCGATACCTCC ACGTACGAAGATATGTCGGGTTTTTATAAGGAAGTTGAGAATCAAGGATACAAGTTATCTTTCAAGCCTATTGACG CAACGTATGTCGACCAATTAGTTGACGAAGGAAAGATTTTTCTTTTCCAAATTTATAACAAAGACTTCTCTGAGCA CTCGAAGGGTACGCCAAACATGCATACACTTTACTGGAAAATGCTTTTCGACGAGACGAATTTAGGAGACGTTGTC TATAAGCTTAATGGGGAGGCAGAAGTATTTTTCCGCAAAGCCAGCATCAACGTTTCGCACCCAACCCATCCTGCCA ACATTCCTATCAAGAAGAAAAACCTTAAACACAAAGACGAGGAACGCATTTTAAAGTATGACCTGATTAAAGATAA ACGCTATACTGTGGATCAATTCCAGTTCCACGTGCCTATTACAATGAATTTCAAAGCAGACGGTAACGGCAACATT AATCAAAAAGCCATTGACTATTTGTGCAGCGCATCAGACACACACATCATTGGTATTGATCGTGGGGAGCGCAATT TACTGTACTTAGTAGTGATTGATGGGAATGGCAAAATCTGCGAGCAATTCTCGTTGAACGAAATTGAAGTCGAGTA TAATGGAGAAAAATACTCTACCAACTACCACGACTTACTGAACGTTAAAGAGAACGAGCGTAAACAAGCTCGCCAG TCTTGGCAGTCAATTGCGAACATTAAGGATTTGAAAGAAGGCTATCTTTCACAAGTAATTCATAAAATCAGTGAAC TGATGGTAAAATACAATGCTATTGTTGTATTGGAAGACTTAAATGCCGGGTTTATGCGTGGCCGTCAGAAAGTCGA AAAACAAGTCTACCAAAAATTCGAAAAAAAATTAATTGAAAAATTGAATTACCTGGTATTCAAAAAGCAGTCCAGT GACCTTCCCGGCGGATTAATGCACGCCTACCAATTAGCAAACAAATTTGAGAGCTTTAACGCACTTGGAAAACAGA GTGGTTTCCTTTTCTACATCCCAGCGTGGAATACAAGCAAGATGGATCCTGTAACGGGATTTGTTAATTTGTTTGA CGTCAAGTACGAGTCCGTGGATAAGGCTAAAAGTTTCTTCTCGAAATTCGATTCAATGCGTTACAACGTTGAACGC GATATGTTCGAGTGGAAGTTTAACTACGGCGAGTTCACGAAAAAAGCCGAAGGAACAAAAACGGACTGGACGGTAT GCTCGTATGGAAACCGCATCATCACTTTCCGTAATCCCGACAAGAATAGTCAGTGGGATAATAAGGAAATCAACTT AACTGAAAATATCAAACTTCTGTTTGAGCGCTTCGGAATCGACCTGAGCTCTAACTTAAAAGATGAGATTATGCAA CGTACCGAAAAGGAATTCTTTATTGAGTTGATTAGCTTGTTTAAATTGGTACTTCAGATGCGTAACAGCTGGACAG GCACCGATATTGATTACTTAGTAAGCCCTGTCTGCAACGAGAATGGAGAATTCTTTGATAGCCGCAATGTTGACGA AACACTTCCGCAAAATGCGGATGCGAACGGAGCATATAATATCGCTCGCAAAGGCATGATCCTTCTGGACAAAATT AAAAAGTCCAATGGGGAAAAAAAATTGGCTTTATCTATTACAAATCGCGAATGGCTTTCCTTTGCCCAAGGTTGTT GTAAGAACGGCTGA SEQ ID NO: 82 ART20_Optimized3 ATGGAGACCTTCTCGGGTTTTACTAACCTGTACCCCCTTAGTAAGACGTTACGTTTCCGTCTGATCCCAGTGGGGG AAACGTTGAAGCATTTTATTGACTCCGGGATTCTTGAGGAAGACCAACATCGTGCCGAAAGTTACGTGAAAGTTAA GGCCATTATCGACGATTATCACCGTGCTTACATCGAGAACAGCCTTTCAGGCTTCGAGTTGCCCTTAGAATCTACA GGTAAATTCAACTCTTTAGAAGAATATTACCTTTACCACAATATCCGTAATAAGACAGAAGAAATCCAGAATCTGA GTTCAAAGGTACGCACAAACCTGCGCAAACAGGTTGTTGTGCAGTTAACTAAGAACGAGATCTTTAAACGTATCGA CAAGAAAGAATTAATCCAGAGCGATCTGATCGATTTTGTGAAGAATGAACCCGATGCTAATGAAAAGATTGCTCTT ATCAGCGAGTTTCGTAACTTCACCGTGTATTTCAAGGGGTTTCACGAAAACCGTCGCAACATGTACTCGGATGAAG AAAAGAGCACATCAATTGCTTTCCGTCTGATCCATGAGAATCTTCCAAAATTCATCGACAATATGGAGGTATTTGC GAAGATCCAAAATACTTCCATTAGCGAAAACTTCGATGCTATCCAGAAAGAATTATGCCCCGAGTTAGTCACGCTT TGCGAAATGTTCAAACTTGGCTACTTTAACAAGACACTTTCACAGAAACAAATTGATGCTTACAATACAGTCATCG GGGGAAAGACTACTTCAGAAGGTAAGAAGATTAAGGGTCTGAACGAGTACATCAATTTATATAACCAACAACACAA ACAAGAAAAGCTTCCGAAGATGAAATTATTATTTAAACAAATCCTTTCGGATCGTGAGTCGGCGTCGTGGCTGCCT GAAAAATTTGAAAACGACTCCCAAGTCGTCGGGGCTATGGTTAATTTCTGGAATACCATTCACGATACTGTCCTTG CCGAAGGCGGTCTTAAGACGATTATCGCTTCGCTTGGAAGCTACGGTTTAGAGGGTATCTTTCTGAAGAATGACTT GCAACTTACAGACATTTCTCAAAAAGCGACTGGATCGTGGTCCAAAATCTCATCAGAGATCAAGCAGAAAATCGAA GTGATGAATCCACAGAAAAAAAAGGAATCCTATGAATCTTACCAAGAACGCATCGATAAGCTGTTTAAGAGTTACA AGTCGTTTTCTCTTGCCTTCATTAATGAATGTCTGCGTGGCGAATATAAGATTGAAGATTATTTCTTGAAGTTGGG TGCAGTGAACAGCTCTTCACTGCAAAAAGAAAACCACTTTAGTCACATTCTGAATGCTTATACTGACGTAAAGGAG GCTATCGGATTCTATAGTGAAAGCACTGACACGAAATTAATTCAGGATAACGACAGCATCCAAAAAATCAAACAAT TTCTTGACGCAGTAAAGGATTTGCAAGCTTACGTTAAGCCCTTGCTTGGGAATGGGGATGAAACTGGTAAGGATGA ACGCTTCTACGGCGACCTTATTGAGTACTGGTCGTTGCTTGATCTGATTACACCACTGTACAACATGGTTCGCAAT TATGTAACCCAAAAGCCATATTCAGTTGACAAGATTAAGATCAATTTTCAAAACCCCACTCTGCTTAATGGCTGGG ACTTGAATAAGGAAACCGATAATACGTCAGTGATTCTGCGCCGTGATGGCAAATATTATTTAGCCATCATGAACAA CAAGTCACGCAAAGTTTTTCTTAAGTACCCCAGTGGGACGGATGGTAATTGCTACGAGAAAATGGAGTATAAGCTG TTGCCTGGAGCCAATAAAATGCTGCCAAAAGTATTTTTCAGCAAATCGCGCATTAATGAATTTATGCCCAACGAGC GCCTGTTATCGAATTACGAAAAGGGTACACACAAAAAGTCGGGGATTTGTTTCAGCTTAGATGATTGTCACACATT GATCGATTTTTTCAAAAAAAGTTTAGATAAACACGAAGATTGGAAGAATTTCGGCTTTAAATTCTCGGATACCTCA ACGTACGAGGACATGTCAGGGTTTTATAAAGAAGTCGAAAACCAGGGATATAAGTTGTCATTCAAACCTATCGACG CAACGTATGTCGACCAGCTTGTGGACGAGGGAAAGATCTTCTTGTTCCAAATTTATAACAAAGATTTCAGCGAGCA TAGTAAAGGAACTCCGAACATGCACACGCTGTACTGGAAAATGTTATTTGACGAAACAAATTTAGGCGATGTCGTG TATAAATTAAATGGTGAGGCGGAAGTTTTCTTCCGCAAGGCTAGCATCAACGTTAGTCATCCCACACATCCGGCAA ATATTCCGATCAAAAAAAAAAACTTGAAGCATAAGGATGAAGAACGTATCCTTAAATACGATCTGATTAAGGATAA ACGTTATACGGTGGATCAATTTCAGTTCCATGTGCCTATTACGATGAACTTTAAAGCTGACGGGAACGGCAATATT AACCAGAAAGCCATTGACTATTTATGTAGTGCTTCCGACACGCACATTATCGGTATTGACCGCGGAGAGCGTAACC TTCTGTACTTAGTTGTCATTGACGGGAACGGAAAGATCTGCGAACAATTCTCATTGAACGAAATCGAGGTGGAATA CAATGGGGAAAAATACAGCACAAACTACCACGATCTTTTAAACGTCAAAGAGAACGAGCGCAAACAAGCTCGTCAG AGCTGGCAGTCTATTGCCAATATTAAAGACTTAAAGGAGGGATACCTGTCGCAAGTCATTCATAAAATCAGTGAAC TTATGGTTAAGTACAATGCGATTGTAGTCCTTGAAGACCTGAACGCTGGGTTCATGCGCGGACGTCAAAAAGTTGA GAAACAGGTATATCAGAAGTTCGAGAAAAAGTTAATTGAGAAGCTGAATTACCTGGTCTTCAAGAAGCAGTCGTCG GATCTGCCGGGAGGGCTGATGCACGCTTACCAGCTGGCTAATAAATTCGAGTCTTTCAACGCATTAGGCAAACAAA GCGGATTCTTATTTTACATCCCAGCTTGGAATACTAGCAAAATGGATCCAGTCACAGGCTTTGTGAATTTATTTGA CGTAAAATACGAGTCTGTAGATAAGGCTAAGTCGTTTTTCAGCAAATTCGACAGTATGCGTTACAACGTCGAACGC GACATGTTCGAGTGGAAATTTAACTACGGGGAATTCACGAAAAAGGCCGAGGGAACTAAAACGGATTGGACAGTCT GCTCCTACGGTAATCGTATCATCACTTTTCGTAACCCGGACAAGAATTCCCAGTGGGACAACAAAGAAATCAACTT AACTGAGAACATCAAATTGCTTTTCGAGCGCTTTGGGATCGATTTGTCCTCCAACCTTAAAGATGAGATTATGCAA CGCACGGAAAAGGAGTTCTTCATCGAGCTGATCAGTCTTTTCAAATTAGTGCTTCAAATGCGTAACAGCTGGACCG GTACGGATATTGACTACCTTGTGTCCCCTGTGTGTAACGAGAACGGAGAATTTTTTGACTCGCGTAACGTCGACGA AACCTTGCCACAAAATGCCGACGCCAACGGTGCTTACAATATTGCTCGTAAGGGCATGATTCTTCTTGATAAGATC AAAAAGAGTAATGGAGAGAAAAAATTGGCATTATCAATTACAAATCGCGAGTGGCTGTCTTTTGCACAAGGGTGTT GTAAAAATGGATGA SEQ ID NO: 83 ART21_WT ATGGAAACATTTTCTGGGTTTACAAATTTGTACCCTTTGTCAAAGACATTGCGGTTTAGATTGATTCCTG TAGGGGAAACATTGAAACATTTTATTGGTAGTGGAATATTGGAAGAAGACCAGCATAGGGCTGAGAGTTA TGTGAAGGTAAAGGCTATTATTGATGACTATCATAGAACTTATATTGAGAATTCTTTATCAGGCTTTGAA TTACCTTTGGAAAGTACGGGTAAATTCAATTCTTTGGAGGAATATTATTTGTATCATAATATTCGAAATA AAACGGAAGAAATTCAGAACTTGTCATCCAAGGTCAGAACTAATCTGAGGAAACAAGTCGTGACTCAACT AACTAAGAACGAAATATTTAAAAGAATTGATAAAAAAGAGCTGATTCAGAGTGATTTGATTGATTTTGTT AAAAATGAACCTGATGCAAATGAGAAAATAGCACTAATCTCAGAATTTCGTAATTTTACTGTATACTTCA AAGGTTTTCATGAAAACCGTAGAAATATGTATTCAGATGAAGAAAAGTCCACGTCTATAGCCTTTCGTCT GATTCATGAGAATCTTCCCAAGTTTATTGATAATATGGAAGTGTTTGCAAAAATACAGAATACTTCTATC TCGGAGAATTTTGATGCTATACAGAAAGAACTTTGCCCGGAGTTGGTAACCCTTTGTGAAATGTTTAAGT TGGGGTATTTTAATAAGACTTTAAGTCAGAAACAAATAGATGCTTATAATACTGTTATAGGTGGTAAAAC CACATCAGAAGGTAAAAAGATTAAAGGTCTTAATGAATATATTAATCTTTATAACCAACAGCATAAGCAA GAGAAATTACCCAAGATGAAGCTTCTTTTCAAGCAGATACTTAGTGATAGAGAAAGTGCGTCATGGCTGC TAGAGAAGTTTGAGAATGATAGTCAGGTTGTCGGTGCAATGGTGAATTTCTGGAATACTATTCATGATAC AGTTCTTGCAGAAGGAGGATTGAAAACGATTATTGCTTCATTGGGTAGCTATGGCCTTGAAGGTATTTTC CTAAAGAATGATTTACAACTTACTGATATATCACAAAAGGCAACAGGTAGTTGGAGTAAAATATCTTCTG AGATAAAGCAAAAAATAGAGGCGATGAATCCCCAAAAGAAAAAAGAGTCTTATGAGAGTTATCAAGAACG TATAGATAAGCTATTCAAGTCTTATAAAAGTTTTTCTTTAGCTTTTGTAAACGAGTGCCTTCGTGGTGAG TATAAGATTGAAGATTATTTTCTTAAGTTAGGGGCTGTGAATAGCAGTTTGTTACAGAAAGAAAATCATT TTTCGCATATTCTCAATACATATACAGATGTAAAAGAGGTGATTGGCTTTTACTCTGAATCGACTGATAC TAAATTAATACAAGATAATGATTCCATTCAAAAGATAAAACAGTTCCTTGACGCAGTTAAAGACTTACAG GCTTATGTAAAACCATTATTGGGTAATAGTGATGAAACCGGTAAGGATGAAAGATTTTATGGTGATTTGA TTGAGTATTGGAGTCTGCTTGACTTGATTACTCCTTTATATAATATGGTTCGTAATTATGTCACTCAGAA GCCGTATTCTGTAGATAAAATAAAAATAAATTTCCAGAATCCTACTTTATTGAATGGTTGGGACCTTAAT AAAGAAATGGATAATACATCTGTGATATTGCGTCGTGATGGTAAATATTATCTGGCCATAATGAATAACA AATCCAGAAAAGTCTTTTTGAAATATCCATCAGGGACAGATAGAAATTGCTATGAGAAGATGGAGTATAA ACTTTTACCTGGTGCTAATAAGATGTTACCTAAGGTCTTCTTTTCAAAATCAAGGATAAATGAATTCATG CCTAATGAGCGTTTGTTGTCAAATTATGAAAAGGGCACGCATAAAAAGTCGGGTACTTGTTTTAGTTTGG ATGATTGTCATACTTTGATAGATTTCTTTAAAAAGTCTTTGAACAAACATGAGGATTGGAAGAATTTTGG CTTCAAGTTCTCTGATACTTCTACTTATGAAGATATGAGTGGTTTTTATAAAGAAGTAGAGAATCAAGGT TATAAATTATCCTTTAAACCGATTGATGCTACGTATGTGGATCAGCTTGTTGATGAAGGTAAGATTTTTC TGTTTCAGATTTATAACAAGGATTTTTCTGAGCATAGCAAAGGTACGCCTAATATGCATACCTTGTATTG GAAAATGTTGTTTGATGAAACAAATCTTGGGGATGTGGTATATAAACTAAATGGTGAGGCTGAAGTCTTT TTCCGTAAGGCAAGTATAAATGTATCACATCCCACTCATCCGGCTAACATACCCATAAAGAAAAAGAATC TTAAACATAAAGATGAAGAAAGAATTCTTAAATATGACTTGATTAAAGATAAGCGTTATACTGTCGACCA GTTCCAGTTTCATGTACCAATAACCATGAATTTCAAGGCGAATGGAAATGGAAATATAAACCAGAAAGCG ATAGACTATTTACGTTCGGCATCAGATACTCATATAATAGGGATTGACCGTGGTGAACGAAACTTGTTAT ATCTTGTAGTGATTGATGGAAATGGAAAAATCTGTGAGCAATTCTCTTTAAATGAAATAGAAGTTGAATA TAATGGTGAAAAGTATTCAACAAATTACCATGATTTGCTTAATGTCAAGGAGAATGAAAGAAAACAGGCA AGACAGAGCTGGCAAAGTATAGCTAACATAAAAGACTTGAAAGAAGGCTATTTAAGTCAGGTTATTCATA AGATTTCTGAATTGATGGTCAAATATAATGCGATTGTGGTGCTTGAGGATTTGAATGCTGGATTTATGCG TGGCCGACAAAAGGTTGAAAAGCAGGTTTATCAGAAATTTGAAAAGAAACTCATTGAGAAGTTAAATTAT CTCGTATTCAAGAAACAGTCTTCTGATTTGCCTGGTGGGCTTATGCATGCTTATCAGTTAGCGAATAAAT TTGAGAGTTTTAATACTTTAGGTAAACAAAGCGGATTTCTCTTTTATATCCCCGCCTGGAATACCAGTAA AATGGATCCGGTAACAGGTTTTGTAAATTTGTTTGATGTGAAGTATGAAAGTGTTGATAAAGCAAAAAGT ATGAATTCACGAAAAAAGCCGAGGGAACCAAAACTGATTGGACTGTTTGTTCCTACGGTAATCGAATTAT CACTTTTAGAAATCCGGATAAAAATTCTCAATGGGATAATAAAGAAATAAATCTTACCGAAAATATTAAG CTGCTGTTTGAAAGGTTTGGCATCGACTTATCTTCAAATCTGAAAGATGAGATAATGGAACGTACAGAAA AAGAATTCTTTATCGAACTGATATCCCTATTTAAGCTTGTGCTACAGATGCGTAATAGTTGGACAGGTAC TGATATAGATTATCTGGTATCACCTGTATGCAATGAAAATGGTGAATTTTTCGATAGCAGAAATGTAGAT GAAACACTTCCGCAAAATGCAGACGCAAACGGAGCATATAACATTGCAAGAAAAGGAATGATACTTCTTG ATAAGATTAAGAAAAATAACGGTGAGAAGAAGCTTACTCTGTCTATAACTAATAGAGAATGGCTTTCATT TGCTCAAGGTTGTTGCAAAAATGGATGA SEQ ID NO: 84 ART21_Optimized1 ATGGAAACATTTAGCGGCTTTACGAATTTGTACCCTTTATCTAAAACGCTGCGTTTTCGTTTAATCCCCGTGGGTG AAACGCTTAAACACTTCATTGGTAGTGGAATTTTGGAGGAGGATCAACACCGCGCGGAAAGCTACGTCAAAGTTAA AGCGATTATCGATGACTATCACCGTACTTACATTGAGAATTCCTTATCCGGGTTTGAGTTGCCTCTGGAGAGCACT GGAAAGTTTAACTCTCTTGAAGAGTACTACCTGTACCATAATATCCGTAACAAAACGGAAGAGATTCAGAATCTGT CCTCAAAGGTCCGTACAAACTTGCGTAAACAAGTTGTGACACAGCTTACCAAAAACGAAATTTTTAAACGTATCGA TAAGAAGGAGTTGATTCAATCGGATCTTATTGACTTTGTAAAGAATGAACCCGATGCGAACGAGAAAATTGCCCTT ATCTCCGAGTTCCGCAACTTCACAGTTTACTTCAAGGGGTTCCATGAAAATCGTCGTAATATGTATTCAGATGAAG AGAAATCTACGTCAATCGCCTTTCGTTTGATCCACGAAAATTTACCTAAATTCATCGATAACATGGAAGTATTTGC TAAGATCCAAAACACGTCAATTTCAGAGAATTTCGACGCTATTCAGAAGGAATTATGTCCAGAATTAGTTACTCTG TGTGAGATGTTTAAGTTGGGGTATTTCAACAAGACTTTGTCGCAGAAACAGATCGATGCATACAATACGGTCATCG GAGGCAAAACTACGTCGGAAGGCAAGAAAATCAAGGGTCTTAACGAATACATTAACTTGTACAACCAGCAGCATAA ACAGGAAAAGTTACCGAAAATGAAGCTGTTATTCAAACAGATCTTGTCTGACCGTGAATCTGCTAGCTGGTTGTTA GAAAAGTTTGAGAACGATTCTCAAGTGGTCGGCGCGATGGTTAACTTTTGGAATACAATCCATGATACTGTGCTGG CAGAAGGCGGTTTGAAAACAATTATTGCATCATTGGGCTCTTATGGACTTGAAGGCATTTTCTTAAAAAATGACCT GCAGTTAACCGATATTTCGCAAAAAGCTACAGGAAGCTGGTCAAAAATCTCAAGTGAAATTAAGCAAAAAATCGAA GCGATGAATCCACAGAAGAAAAAGGAGTCCTACGAAAGCTACCAGGAGCGTATCGATAAACTTTTCAAGAGCTATA AGTCCTTCTCGTTGGCATTCGTGAATGAGTGTCTGCGTGGAGAATATAAAATCGAAGACTATTTTCTGAAGTTGGG CGCTGTGAATAGTAGTCTTTTGCAAAAAGAGAATCATTTTTCGCACATTTTAAATACGTACACAGATGTTAAGGAA GTAATTGGTTTCTACTCCGAGTCTACTGACACAAAGCTTATTCAGGATAACGATAGCATCCAAAAGATTAAACAAT TTTTAGACGCTGTGAAGGACCTTCAGGCATATGTTAAGCCCCTGCTTGGAAATAGTGACGAGACGGGTAAAGATGA GCGTTTTTATGGAGATCTGATTGAGTATTGGAGCCTTTTAGATCTGATCACACCCTTGTATAACATGGTACGTAAC TATGTTACGCAGAAGCCGTATTCCGTCGACAAAATCAAGATTAACTTTCAAAACCCAACACTTTTAAACGGATGGG ACTTAAATAAAGAAATGGATAACACTAGCGTCATCTTGCGTCGCGACGGGAAGTACTACTTGGCCATTATGAATAA CAAATCGCGCAAAGTATTTCTTAAATATCCATCTGGGACTGATCGTAATTGTTATGAAAAGATGGAATATAAACTG TTGCCCGGGGCCAACAAGATGTTACCAAAAGTGTTTTTTAGCAAGTCCCGCATCAATGAGTTTATGCCGAATGAGC GCCTGCTTAGCAATTACGAGAAGGGCACGCATAAGAAGTCTGGAACTTGCTTCTCGTTGGACGACTGCCACACTCT GATCGACTTTTTCAAGAAGTCTTTAAATAAGCATGAAGACTGGAAAAACTTTGGGTTTAAGTTCTCCGACACCTCT ACGTACGAAGATATGTCCGGCTTTTACAAAGAAGTTGAAAATCAAGGCTATAAGCTTTCGTTTAAACCGATTGATG CCACGTATGTAGATCAATTGGTTGATGAAGGAAAGATCTTTCTTTTTCAGATCTACAACAAGGATTTTTCCGAGCA TAGCAAAGGGACTCCGAATATGCATACGTTATACTGGAAAATGTTGTTTGACGAGACAAATCTGGGGGATGTGGTA TATAAATTAAACGGTGAAGCCGAGGTATTCTTCCGCAAGGCGTCTATCAATGTATCACATCCAACGCATCCTGCAA ACATCCCGATTAAAAAAAAAAATTTGAAGCACAAAGACGAGGAACGCATCTTAAAATACGACTTAATTAAAGACAA ACGCTACACAGTTGACCAATTCCAATTTCACGTGCCAATCACGATGAATTTCAAAGCGAATGGGAATGGTAATATC AATCAGAAGGCGATCGATTATTTGCGTTCGGCCTCCGATACCCACATTATTGGAATTGATCGTGGGGAGCGCAATT TGTTATATCTGGTCGTGATTGACGGAAATGGAAAAATCTGTGAGCAGTTTTCCCTGAACGAGATCGAGGTGGAATA CAACGGCGAGAAATATAGTACGAACTATCACGATTTACTGAACGTGAAGGAGAACGAACGCAAGCAGGCCCGCCAA TCCTGGCAATCCATCGCCAATATCAAAGACCTGAAAGAGGGGTATCTTTCGCAGGTGATTCACAAGATTTCGGAGT TGATGGTAAAATACAACGCTATCGTTGTGCTGGAAGATCTGAACGCGGGTTTTATGCGTGGGCGCCAGAAAGTGGA AAAGCAGGTGTATCAGAAATTCGAGAAAAAGCTTATCGAAAAGCTGAATTATTTGGTATTTAAGAAACAGTCCTCG GACCTTCCTGGCGGTTTAATGCATGCCTACCAATTGGCGAATAAGTTCGAATCCTTCAACACTCTTGGAAAGCAGA GCGGATTTTTGTTTTACATCCCGGCTTGGAATACGTCCAAGATGGATCCCGTAACAGGTTTCGTGAATCTGTTCGA CGTGAAGTATGAGAGTGTGGACAAGGCCAAGAGTTTTTTCAGCAAGTTTGATAGCATTCGCTATAACGTTGAACGT GACATGTTTGAATGGAAGTTTAATTACGATGAATTCACCAAAAAAGCAGAAGGTACGAAAACGGATTGGACGGTTT GTTCTTACGGCAACCGTATTATTACATTCCGCAACCCTGATAAAAACTCACAATGGGATAATAAAGAAATCAATTT AACAGAGAATATTAAGTTGCTTTTCGAACGCTTTGGAATCGATTTAAGTTCGAACCTTAAAGACGAAATTATGGAG CGCACGGAGAAGGAATTCTTCATTGAGCTGATTTCGTTGTTCAAGTTGGTTCTTCAGATGCGTAACTCGTGGACCG GCACTGATATTGACTACTTGGTATCACCAGTTTGTAACGAAAACGGTGAATTCTTTGATTCACGTAACGTGGACGA AACCCTGCCCCAGAATGCGGACGCAAACGGCGCTTACAACATCGCCCGCAAAGGCATGATCTTATTGGACAAGATT AAAAAAAACAATGGTGAAAAGAAGTTAACTTTAAGCATTACAAACCGCGAATGGCTGAGTTTTGCTCAAGGATGCT GTAAAAATGGCTGA SEQ ID NO: 85 ART21_Optimized2 ATGGAAACCTTTTCTGGATTCACAAATCTGTATCCACTTAGTAAAACGCTGCGTTTTCGTCTTATTCCTGTAGGCG AGACGCTTAAGCATTTCATCGGCAGTGGTATTCTGGAAGAGGATCAGCATCGTGCGGAATCATATGTAAAAGTTAA AGCCATTATTGATGACTACCATCGCACCTATATTGAAAACAGTTTGAGTGGCTTTGAGTTACCCTTGGAATCTACA GGTAAATTTAATTCATTAGAGGAATACTATTTGTATCATAACATTCGTAACAAGACCGAAGAGATCCAAAATCTTA GCTCTAAGGTGCGTACAAATTTACGCAAGCAAGTAGTTACTCAATTAACCAAAAACGAGATTTTCAAGCGCATCGA CAAGAAGGAACTGATCCAGTCAGACTTAATCGATTTCGTTAAAAATGAGCCGGACGCAAATGAGAAAATTGCTTTG ATTTCAGAGTTTCGCAACTTCACTGTGTATTTTAAGGGCTTCCATGAAAATCGCCGCAACATGTACTCCGATGAGG AGAAGAGTACTTCTATCGCATTTCGTTTAATTCATGAAAACTTGCCTAAATTTATTGACAATATGGAAGTGTTTGC GAAGATCCAAAACACTTCAATCTCTGAGAACTTTGACGCCATCCAGAAAGAGTTGTGCCCGGAATTAGTCACTCTT TGTGAGATGTTCAAGTTGGGTTATTTCAATAAGACTCTGTCTCAAAAGCAAATTGATGCCTATAATACTGTTATTG GTGGAAAGACGACTAGTGAAGGCAAGAAGATCAAGGGGCTGAACGAGTACATCAATTTATACAATCAACAACATAA GCAGGAAAAATTACCCAAAATGAAATTACTGTTCAAGCAGATTTTGTCTGACCGTGAATCGGCATCCTGGCTTCTT GAAAAGTTCGAGAATGACAGCCAGGTCGTTGGCGCAATGGTAAACTTTTGGAATACGATCCACGATACTGTACTTG CTGAGGGAGGGTTAAAAACGATTATCGCTTCACTTGGGAGTTATGGATTGGAGGGGATCTTTTTAAAAAATGATCT GCAGTTGACAGACATCTCGCAAAAGGCTACCGGTTCATGGTCGAAGATTTCTAGCGAGATTAAGCAGAAGATTGAA GCTATGAACCCCCAAAAGAAGAAGGAAAGCTACGAGAGTTATCAGGAACGCATCGATAAACTGTTTAAGTCCTACA AGAGCTTCTCCTTGGCATTCGTTAATGAGTGCTTACGTGGTGAATATAAGATTGAAGACTACTTTCTGAAGCTGGG AGCAGTCAACAGCTCTCTGTTGCAGAAGGAGAACCACTTTTCACATATTCTGAACACTTACACGGATGTAAAGGAG GTGATTGGCTTTTACAGCGAGTCTACCGACACAAAATTAATTCAGGACAATGATTCTATTCAAAAGATCAAGCAGT TTTTGGATGCAGTGAAAGACCTGCAGGCATACGTCAAGCCTTTGTTAGGCAACAGTGATGAGACTGGTAAAGACGA GCGCTTTTACGGGGATTTAATTGAGTATTGGTCCCTGCTTGACCTGATTACCCCTTTATATAATATGGTTCGTAAT TATGTTACGCAGAAGCCTTACTCTGTTGATAAGATCAAGATTAATTTTCAAAATCCGACGCTTTTGAATGGGTGGG ACCTTAACAAGGAAATGGACAATACGTCCGTGATCTTGCGTCGTGATGGTAAATACTACTTGGCCATCATGAATAA TAAAAGCCGCAAGGTCTTTTTAAAGTATCCATCAGGGACGGACCGTAATTGCTATGAAAAAATGGAGTATAAATTG TTACCTGGTGCGAACAAGATGCTTCCAAAAGTATTTTTCTCAAAGTCACGTATCAACGAGTTCATGCCAAATGAGC GCTTGTTAAGTAACTATGAGAAAGGCACGCATAAAAAATCCGGAACCTGCTTCTCCCTGGATGACTGCCACACATT AATTGACTTTTTTAAAAAGAGTTTAAATAAACATGAAGATTGGAAAAACTTCGGCTTCAAATTCTCCGACACTTCA ACGTACGAGGACATGAGTGGATTCTACAAAGAGGTAGAAAACCAGGGTTATAAACTGTCCTTTAAACCCATCGATG CGACATATGTCGACCAGCTGGTAGACGAGGGCAAGATCTTTCTTTTCCAGATTTACAACAAAGATTTTAGCGAGCA CTCCAAGGGAACGCCCAATATGCACACGTTGTATTGGAAAATGCTTTTTGATGAAACGAACTTAGGAGATGTTGTC TATAAATTGAATGGAGAGGCGGAGGTTTTTTTTCGCAAAGCGTCAATTAACGTATCGCATCCTACGCATCCAGCCA ACATCCCCATTAAAAAAAAAAACCTTAAGCACAAAGATGAGGAGCGCATTCTTAAGTATGACCTGATTAAGGATAA ACGTTATACGGTGGACCAGTTTCAGTTCCACGTGCCGATCACCATGAATTTTAAAGCAAACGGCAACGGTAATATC AATCAGAAAGCAATCGACTACTTACGCTCGGCCTCTGACACCCACATTATCGGTATCGATCGCGGGGAGCGTAACT TGCTTTATCTGGTAGTAATCGACGGCAACGGAAAGATCTGTGAGCAGTTCTCCCTTAACGAGATCGAAGTGGAATA TAATGGAGAAAAGTACTCTACTAACTATCACGACCTGCTGAACGTAAAAGAAAACGAGCGCAAACAAGCTCGTCAG TCCTGGCAGAGCATCGCTAACATCAAGGATCTGAAAGAAGGTTACTTATCGCAGGTGATCCACAAGATTAGTGAGT TAATGGTGAAATACAACGCAATCGTCGTACTTGAGGATTTAAACGCCGGTTTCATGCGTGGACGCCAAAAGGTCGA AAAACAAGTATATCAGAAATTTGAAAAAAAGCTTATCGAGAAATTGAATTACTTGGTGTTCAAGAAACAATCAAGT GATCTTCCCGGCGGTTTAATGCACGCATACCAATTGGCCAACAAGTTTGAGTCCTTTAATACGTTGGGTAAACAGT CAGGCTTCTTGTTTTATATTCCAGCTTGGAATACTAGCAAAATGGACCCTGTTACGGGGTTCGTTAACTTATTCGA CGTGAAGTACGAATCAGTCGATAAAGCTAAATCATTCTTTAGTAAATTTGATTCGATTCGTTACAATGTCGAGCGC GATATGTTTGAATGGAAGTTTAATTATGATGAATTCACAAAGAAGGCGGAGGGCACGAAAACGGATTGGACGGTCT GCTCCTATGGTAACCGTATCATCACATTTCGTAACCCGGATAAAAATTCCCAATGGGATAATAAGGAAATTAACCT GACGGAAAATATCAAATTACTTTTTGAGCGCTTCGGAATTGACTTATCTTCCAATTTAAAAGACGAAATTATGGAG CGCACCGAAAAAGAATTCTTTATCGAGCTGATCTCGCTGTTCAAACTGGTCCTGCAGATGCGCAATAGCTGGACTG GAACAGACATTGATTATTTAGTTTCGCCGGTTTGCAACGAAAACGGAGAGTTTTTTGACAGTCGTAATGTGGACGA AACACTTCCTCAGAACGCTGACGCAAATGGGGCATATAATATCGCCCGTAAGGGAATGATCTTGTTGGACAAAATT AAAAAGAATAACGGGGAGAAGAAGCTTACGTTATCCATCACAAACCGTGAGTGGTTGAGCTTTGCCCAAGGTTGTT GCAAAAACGGGTGA SEQ ID NO: 86 ART21_Optimized3 ATGGAAACCTTCTCGGGTTTCACCAACTTATACCCCCTTAGTAAAACCTTGCGTTTCCGCTTAATTCCGGTTGGCG AGACTTTGAAGCACTTCATCGGAAGCGGAATCCTTGAGGAGGATCAACATCGTGCAGAATCATACGTGAAAGTAAA AGCTATCATCGATGACTACCACCGTACTTACATTGAAAACTCTTTAAGCGGGTTCGAATTACCCCTTGAGTCCACA GGAAAGTTTAATAGCTTAGAAGAGTACTACCTTTACCACAATATCCGCAACAAAACGGAGGAAATTCAAAATTTAT CTTCGAAAGTCCGCACAAATCTTCGTAAACAGGTCGTGACGCAGTTGACGAAGAATGAGATTTTTAAACGCATTGA CAAGAAGGAACTTATTCAAAGCGATTTAATTGATTTTGTTAAAAACGAACCGGATGCAAACGAAAAGATCGCTTTG ATCTCCGAATTTCGTAATTTCACGGTATACTTTAAAGGGTTTCACGAGAATCGCCGCAACATGTATTCCGACGAAG AAAAGAGTACATCAATTGCATTCCGCTTAATCCACGAAAATCTGCCAAAGTTTATTGACAATATGGAAGTATTCGC CAAAATCCAAAACACGAGCATCAGCGAGAATTTTGACGCCATTCAGAAGGAGTTGTGCCCGGAGTTAGTAACGTTG TGTGAGATGTTTAAGCTTGGGTACTTTAATAAAACTCTTTCGCAAAAGCAGATTGATGCATATAACACTGTTATCG GAGGAAAGACAACGAGCGAGGGTAAGAAAATCAAAGGATTGAACGAATACATTAATTTATATAATCAGCAACATAA GCAGGAGAAGTTGCCCAAGATGAAATTACTGTTTAAACAAATCTTATCAGATCGTGAGAGTGCCTCGTGGCTGTTA GAGAAATTCGAGAATGATAGCCAGGTCGTCGGCGCCATGGTTAATTTCTGGAACACAATTCATGACACAGTATTGG CTGAAGGAGGATTAAAAACTATCATTGCGTCTTTAGGAAGTTATGGGCTTGAGGGTATTTTTCTTAAAAACGACCT GCAACTGACCGACATCTCACAGAAAGCTACTGGATCTTGGTCAAAAATCAGCTCGGAGATTAAGCAAAAGATTGAG GCTATGAATCCACAGAAAAAAAAGGAATCGTATGAGAGCTATCAGGAACGCATCGATAAACTGTTCAAGTCCTACA AGTCGTTCTCATTAGCGTTTGTAAACGAATGTTTACGTGGGGAGTATAAGATTGAAGATTACTTCCTGAAACTTGG TGCGGTCAATAGTTCGTTGTTGCAGAAAGAGAATCATTTCTCGCATATCCTTAACACTTACACGGACGTCAAAGAA GTTATCGGGTTCTACTCGGAAAGTACAGACACTAAATTGATCCAGGACAATGACTCCATCCAGAAAATTAAGCAGT TTCTTGACGCTGTGAAAGACTTGCAGGCTTATGTAAAACCATTGTTGGGGAATTCAGATGAGACCGGCAAAGATGA GCGCTTCTATGGCGACTTAATCGAATACTGGTCGTTGCTTGATCTTATTACGCCGCTTTACAACATGGTTCGCAAC TACGTCACTCAAAAACCCTATTCTGTTGATAAGATTAAAATCAATTTCCAGAACCCTACGTTACTTAATGGATGGG ACCTTAATAAAGAAATGGACAACACTTCGGTAATTCTTCGCCGCGACGGGAAGTATTACTTAGCGATTATGAACAA CAAGTCCCGTAAAGTATTCCTGAAATATCCCTCCGGTACCGACCGCAATTGTTACGAGAAGATGGAGTATAAATTA TTACCCGGAGCTAACAAGATGCTGCCGAAGGTCTTCTTCTCAAAATCGCGCATTAACGAATTTATGCCTAACGAGC GTTTGTTATCAAACTATGAGAAAGGAACTCACAAAAAGTCCGGCACTTGCTTTTCGCTTGATGACTGCCACACGCT TATCGACTTTTTCAAGAAAAGCTTAAATAAGCACGAGGACTGGAAGAACTTTGGGTTTAAGTTCTCGGATACGAGC ACGTATGAGGATATGAGTGGGTTCTATAAGGAAGTGGAGAATCAAGGTTATAAATTATCCTTTAAACCAATTGACG CTACGTATGTCGATCAGCTGGTAGACGAGGGCAAAATCTTCTTATTCCAAATCTACAACAAAGATTTTTCTGAGCA TAGCAAAGGAACTCCGAATATGCACACCCTGTATTGGAAAATGCTGTTTGACGAAACGAATTTAGGCGACGTAGTC TACAAGTTGAACGGTGAAGCAGAGGTCTTTTTTCGCAAAGCCAGTATCAACGTATCGCACCCTACGCACCCGGCGA ATATTCCTATCAAAAAAAAAAATCTGAAGCACAAGGATGAGGAGCGTATTCTTAAATACGACTTGATCAAGGACAA ACGCTACACGGTGGATCAATTCCAGTTCCATGTTCCGATTACCATGAATTTTAAGGCAAATGGCAACGGTAATATC AATCAAAAAGCGATCGATTATCTTCGTTCCGCATCAGACACTCATATTATCGGAATCGATCGCGGTGAACGTAACT TGCTGTATCTGGTGGTCATTGACGGTAATGGTAAAATTTGCGAGCAATTTAGTCTGAACGAAATTGAAGTCGAGTA TAATGGGGAAAAGTATAGTACCAATTATCATGATCTTCTTAACGTCAAGGAAAATGAGCGTAAGCAAGCACGTCAA TCTTGGCAATCGATTGCTAATATTAAGGATCTGAAAGAGGGTTACCTGTCACAAGTCATCCACAAGATTTCTGAAC TTATGGTAAAGTACAATGCGATCGTCGTCTTGGAGGACCTGAACGCGGGTTTCATGCGCGGACGTCAAAAGGTCGA AAAGCAGGTATATCAAAAGTTCGAGAAAAAGCTTATCGAAAAACTTAATTATCTTGTGTTCAAGAAGCAGAGTAGC GACCTTCCTGGGGGCTTAATGCATGCATACCAGCTTGCCAATAAGTTCGAGTCCTTCAACACACTTGGGAAACAAT CTGGGTTTCTGTTTTATATTCCGGCGTGGAATACGTCCAAAATGGACCCAGTCACCGGGTTCGTCAACTTATTCGA CGTAAAATATGAAAGCGTGGATAAGGCCAAGTCTTTTTTTAGTAAATTCGATTCAATTCGTTACAATGTCGAGCGC GATATGTTCGAATGGAAGTTTAACTACGACGAGTTCACAAAAAAGGCCGAAGGAACTAAGACGGACTGGACAGTAT GCTCTTATGGTAATCGTATCATCACCTTCCGCAATCCTGATAAGAATTCCCAATGGGATAATAAAGAAATTAACCT TACCGAAAATATCAAGCTGTTGTTCGAGCGCTTCGGGATCGACCTGAGCTCTAACTTGAAGGACGAAATCATGGAG CGTACTGAGAAGGAATTTTTTATTGAGCTTATCTCGTTATTTAAACTTGTATTGCAAATGCGTAATTCATGGACAG GAACGGACATTGATTACCTGGTGAGCCCAGTCTGCAATGAGAATGGAGAGTTCTTCGACTCCCGCAACGTCGACGA GACGCTGCCACAAAACGCGGACGCGAACGGGGCATACAATATCGCCCGTAAAGGTATGATCCTGCTGGACAAAATT AAAAAGAACAATGGTGAAAAAAAATTGACGCTGAGTATTACTAATCGTGAGTGGCTTTCGTTTGCGCAGGGTTGCT GCAAGAACGGCTGA SEQ ID NO: 87 ART22_WT ATGTTATTTCAAGACTTTACTCATTTATATCCCCTATCAAAAACCGTGCGTTTTGAATTAAAGCCCATTG GCAAGACATTAGAGCATATCCATGCCAAAAACTTTTTGAGCCAAGATAAGACCATGGCGGACATGTACCA AAAGGTGAAGGCGATACTGGACGATTATCATCGTGATTTTATCGCTGATATGATGGGCGAAGTTAAGCTA ACTAAGCTGGCAGAATTTTGTGATGTGTATTTAAAATTTAGAAAAAATCCCAAAGACGATGGATTGCAAA AACAGCTAAAGGACTTGCAAGCAGTTTTAAGAAAAGAGATTGTGAAGCCCATCGGTAATGGCGGAAAATA CAAGGTGGGTTATGACCGCTTATTTGGGGCAAAGCTCTTTAAGGACGGCAAAGAGCTTGGTGATTTGGCG AAATTTGTCATCGCCCAAGAGAGCGAGTCATCACCCAAGCTTCCCCAAATTGCCCATTTTGAGAAGTTTA GCACCTACTTTACTGGCTTTCATGACAACCGCAAAAACATGTACAGCAGTGATGATAAGCATACCGCCAT TGCCTATCGTCTGATTCATGAAAATTTGCCACGTTTTATCGATAATCTACAAATATTGGCAACCATCAAA CAAAAGCATTCGGCATTGTATGATCAGATTGCAAGTGAACTGACTGCAAGTGGTTTGGATGTGTCGCTAG CAAGTCATCTGGGCGGCTATCACAAGCTTTTAACCCAAGAGGGTATCACGGCTTATAATAGGATAATAGG TGAAGTGAATAGTTATACGAATAAGCATAATCAAATTTGCCACAAATCCGAACGTATCGCCAAATTACGC CCCCTGCACAAACAAATCCTAAGCGACGGCATGGGCGTGTCGTTTTTGCCAAGCAAATTTGCCGATGATA GCGAGATGTGTCAAGCGGTCAATGAGTTTTACCGCCATTATGCTGATGTTTTTGCTAAGGTGCAAAGCTT ATTTGATAGATTTGATGACTATCAAAAGGACGGCATTTATGTTGAACATAAAAATCTAAATGAGCTATCT AAGCGAGCATTTGGTGATTTTGGGTTTTTAAAACGATTCTTAGAGGAGTATTATGCAGATGTGATTGACC CAGAGTTTAATGAGAAATTCGCCAAGACCGAGCCTGATAGCGACGAACAAAAAAAACTGGCAGGAGAAAA AGACAAATTCGTTAAAGGCGTACATTCCTTGGCAAGTCTTGAACAGGTGATTGAGTATTATACCGCTGGG TATGATGATGAGTCTGTACAAGCAGACAAACTTGGGCAGTATTTCAAACACCGTCTGGCAGGCGTGGATA ATCCAATCCAAAAAATACACAACAGTCACAGTACCATTAAGGGGTTTTTGGAGCGTGAACGTCCAGCAGG CGAGCGAGCATTGCCCAAAATTAAGTCAGATAAAAGTCCTGAAATGACACAATTAAGACAACTAAAAGAG CTACTAGACAACGCCTTAAACGTGGTGCATTTTGCTAAGCTGGTGTCGACCGAAACCGTATTAGACACTC GAAGTGATAAATTTTATGGCGAATTTAGACCTTTATATGTTGAGCTTGCCAAGATTACCACACTTTATAA CAAAGTGCGTGATTATCTGTCGCAAAAGCCATTTAGCACCGAAAAATATAAATTAAACTTTGGCAATCCG ACATTATTAAACGGTTGGGATTTGAATAAAGAAAAAGATAATTTTGGGGTTATCTTACAAAAAGACGGCT GTTATTATTTGGCGTTATTGGATAAAGCTCATAAAAAAGTATTTGATAATGCTCCAAATACAGGTAAAAG CGTTTATCAAAAAATGGTTTATAAGCAAATAGCAAATGCTCGACGGGACTTAGCTTGTTTATTGATTATT AATGGTAAGGTAGTTAGAAAAACAAAAGGATTGGATGATTTACGTGAGAAATATTTACCATACGATATTT ATAAAATTTATCAATCCGAGAGCTATAAGGTTTTATCGCCAAATTTTAATCATCAAGACTTGGTTAAATA TATTGATTATAACAAAATTTTAGCATCGGGATATTTTGAGTATTTTGATTTTAGGTTTAAAGAAAGCTCT GAATATAAGAGCTATAAAGAATTTTTGGATGATGTAGATAACTGTGGTTATAAAATAAGTTTTTGTAATA TAAACGCCGATTATATTGATGAGTTGGTTGAGCAGGGTCAGTTGTATTTATTCCAGATTTATAATAAAGA TTTCTCGCCCAAGGCTCACGGTAAGCCCAATTTGCATACTTTGTATTTTAAGGCATTATTTAGTGAAGAT AATCTTGCCAATCCGATTTATAAGTTAAATGGCGAGGCACAGATATTTTATCGCAAGGCGTCTTTGGATA TGAATGAAACCACCATTCATCGTGCAGGCGAGGTATTAGAAAATAAAAATCCCGATAATCCCAAACAGCG TCAATTTGTCTATGACATCATCAAAGACAAACGTTATACCCAAGATAAGTTTATGCTACATGTGCCTATT ACCATGAATTTTGGTGTGCAGGGCATGACGATTGAAGGATTTAATAAAAAAGTTAATCAAAGCATACAAC AATATGATGATGTGAATGTGATTGGCATAGACCGTGGCGAGCGACATCTGCTATATCTGACCGTGATTAA CAGCAAAGGTGAAATCTTAGAACAGCGTAGTCTCAATGACATCATCACCACATCAGCAAACGGCACACAA ATGACCACGCCTTATCATAAAATCCTAAATAAAAAGAAAGAAGGGCGTTTGCAGGCTCGTAAGGATTGGG GTGAGATTGAAACCATTAAAGAGCTAAAAGCAGGCTATCTAAGCCATGTGGTACATCAAATCAGCCAGCT TATGCTTAAATATAATGCCATTGTGGTGTTGGAAGATTTGAATTTTGGATTTAAGCGTGGTCGCCTGAAA GTGGAGAATCAGGTTTATCAAAACTTTGAAAACGCCTTAATCAAAAAGCTAAACCATTTGGTATTAAAAG ATAAGACAGATGATGAGATTGGCTCATATAAAAATGCCCTGCAATTGACCAATAATTTTACTGACCTAAA AAGCATTGGCAAACAAACGGGATTTTTATTCTATGTGCCTGCACGGAATACCAGTAAAATAGACCCTGAA ACGGGCTTTGTGGATTTGTTAAAACCACGTTATGAAAATATCACTCAGTCGCAAGCGTTTTTTGGTAAAT TTGATAAGATTTGTTATAACACAGATAAGGGTTATTTTGAATTTCATATTGATTATGCCAAATTCACTGA CGAAGCCAAAAACTCTCGCCAAACATGGGTCATTTGCTCGCATGGCGATAAACGCTATGTGTATAACAAA ACCGCCAACCAAAATAAAGGGGCGACCAAGGGTATTAATGTTAATGATGAATTAAAATCGCTATTTGCTT GTCATCACATCAATGACAAACAGCCAAATCTGGTCATGGATATTTGCCAAAATAACGATAAAGAATTTCA TAAATCGCTAATGTATCTGTTAAAGGCATTGCTTGCATTACGATATAGTAACGCCAATAGCGATGAAGAT TTTATTTTATCGCCTGTGGCAAATGATGAGGGTGTGTTTTTTAATTCGGCATTGGCGGATGATACACAGC CACAAAATGCGGACGCCAATGGGGCATATCATATCGCATTAAAGGGTTTGTGGGTACTAGAACAAATCAA AAACAGCGATGATTTGGATAAAGTTGATCTCGAAATTAAAGATGACGAATGGCGAAACTTTGCTCAAAAC CGCTAA SEQ ID NO: 88 ART22_Optimized1 ATGTTATTTCAGGACTTTACTCATCTTTATCCGCTGTCAAAAACGGTCCGTTTCGAGCTGAAACCGATCGGTAAGA CCTTAGAACACATTCATGCGAAGAATTTTCTTTCTCAAGACAAAACCATGGCAGACATGTACCAAAAAGTTAAAGC TATTTTAGATGATTATCATCGTGACTTCATCGCAGACATGATGGGCGAAGTCAAATTAACAAAACTTGCGGAATTC TGCGATGTATACTTGAAATTCCGTAAAAATCCAAAAGATGACGGTCTTCAAAAACAATTGAAAGACCTTCAAGCAG TGTTACGTAAAGAGATTGTTAAACCTATTGGTAACGGGGGCAAGTACAAGGTCGGTTATGACCGCTTATTTGGCGC GAAGTTGTTTAAGGATGGCAAAGAATTGGGGGACCTGGCCAAATTTGTGATCGCACAGGAGAGCGAGTCTTCTCCG AAATTGCCGCAAATCGCTCACTTTGAGAAGTTCTCTACTTACTTTACAGGGTTTCACGACAATCGCAAGAATATGT ATAGTAGCGATGATAAGCACACTGCTATTGCATATCGCCTTATCCATGAGAATCTTCCCCGCTTTATTGACAATCT GCAGATCCTTGCGACAATCAAACAAAAACATTCTGCTTTATACGACCAGATCGCCTCAGAGTTAACTGCGTCTGGG TTAGATGTGTCGCTGGCCTCGCACCTGGGTGGCTACCACAAACTGCTTACTCAGGAAGGTATTACTGCGTATAACC GTATCATTGGCGAGGTAAATAGCTATACTAACAAACACAACCAGATCTGCCATAAAAGTGAACGTATTGCCAAGCT TCGCCCCTTACACAAGCAGATCCTTTCAGACGGGATGGGCGTCAGTTTCTTACCCTCTAAGTTCGCGGATGACTCT GAAATGTGTCAGGCAGTCAACGAATTCTACCGTCACTACGCAGATGTGTTCGCTAAAGTACAAAGCTTATTTGATC GTTTTGATGATTATCAAAAGGACGGGATTTACGTTGAGCACAAGAATTTAAACGAATTGTCGAAGCGCGCCTTCGG GGATTTCGGCTTTTTAAAGCGCTTTCTGGAGGAGTACTACGCAGATGTGATCGATCCTGAGTTTAACGAAAAATTT GCTAAAACGGAACCCGATAGCGATGAACAAAAGAAGCTTGCGGGTGAGAAAGACAAATTTGTTAAAGGTGTTCATT CGCTTGCGAGCTTAGAACAAGTAATCGAATATTATACAGCCGGATACGACGATGAGTCTGTCCAAGCGGATAAGCT TGGACAATATTTCAAACATCGTCTTGCAGGCGTAGATAACCCAATCCAAAAAATCCATAATTCACATTCCACGATC AAGGGTTTCTTGGAGCGTGAACGCCCTGCCGGGGAGCGCGCGCTGCCTAAAATCAAAAGTGATAAATCGCCCGAGA TGACCCAACTTCGTCAACTTAAGGAGTTATTGGATAACGCGTTAAATGTGGTCCATTTTGCGAAATTGGTGAGTAC GGAGACTGTACTTGACACCCGTTCCGACAAGTTTTACGGGGAGTTCCGCCCGTTGTATGTGGAGTTGGCGAAGATT ACTACACTTTACAATAAGGTACGCGATTACTTATCTCAAAAGCCATTTTCAACGGAGAAGTATAAGTTGAACTTCG GGAATCCAACGTTGCTTAACGGCTGGGACCTGAATAAAGAAAAAGATAACTTCGGGGTTATTTTACAAAAGGACGG TTGCTACTACTTGGCTTTATTGGACAAGGCACATAAGAAAGTATTTGACAACGCGCCAAACACGGGGAAGAGTGTG TATCAAAAAATGGTCTATAAGCAAATTGCAAATGCCCGCCGTGACTTAGCCTGTTTACTTATCATTAATGGCAAGG TGGTCCGCAAAACAAAAGGGCTGGACGACTTGCGCGAAAAATATTTACCCTATGATATTTATAAGATTTACCAAAG CGAAAGCTACAAAGTACTTTCCCCGAACTTTAATCATCAGGATCTTGTGAAGTATATTGACTATAACAAGATCTTG GCGAGTGGGTATTTTGAGTATTTTGACTTCCGTTTTAAAGAGTCTAGTGAGTACAAAAGTTATAAGGAGTTTCTTG ATGACGTAGATAATTGTGGCTATAAGATCTCATTCTGTAACATCAATGCGGACTATATTGACGAATTGGTTGAACA GGGACAACTTTATTTATTCCAAATTTATAATAAAGATTTCAGCCCAAAAGCACACGGTAAGCCGAATCTGCACACG CTGTACTTTAAAGCTCTGTTCTCTGAGGATAACCTGGCCAACCCCATTTATAAGCTGAACGGGGAGGCCCAAATTT TCTACCGTAAGGCGTCCTTGGATATGAACGAGACGACCATTCACCGTGCAGGTGAGGTTCTGGAAAATAAGAATCC AGACAACCCAAAACAGCGCCAATTCGTGTATGACATTATTAAAGACAAACGCTATACACAAGATAAGTTTATGTTA CATGTCCCGATTACGATGAACTTCGGTGTGCAAGGAATGACAATCGAGGGTTTTAACAAAAAAGTAAACCAATCCA TCCAACAATACGATGATGTCAATGTAATTGGAATTGATCGTGGCGAACGCCATCTGCTTTACCTTACCGTGATCAA TAGTAAAGGAGAAATCCTGGAGCAGCGTAGTTTGAACGATATTATTACTACTTCTGCGAACGGGACGCAGATGACC ACACCTTACCATAAGATTTTGAATAAGAAAAAAGAAGGGCGTTTGCAAGCGCGTAAGGACTGGGGGGAGATCGAGA CCATTAAAGAGCTGAAAGCGGGGTATTTGAGTCACGTGGTACATCAAATTAGTCAATTGATGCTTAAATACAACGC TATTGTCGTACTTGAGGACCTTAACTTCGGGTTCAAACGCGGCCGCTTAAAGGTAGAGAATCAGGTGTATCAAAAC TTTGAAAACGCCCTGATTAAGAAACTGAATCACCTGGTTCTTAAAGATAAGACCGATGATGAGATTGGATCATATA AAAACGCATTACAACTGACCAATAATTTTACGGACCTGAAGTCTATTGGCAAACAGACTGGCTTTCTTTTCTACGT TCCGGCGCGTAACACGAGTAAGATTGACCCCGAGACTGGTTTCGTTGATTTGTTGAAGCCTCGTTACGAGAACATC ACACAGTCTCAGGCTTTTTTCGGAAAATTTGATAAAATTTGTTACAATACAGACAAGGGCTATTTCGAATTTCACA TCGATTATGCAAAGTTCACTGATGAGGCAAAAAATTCGCGCCAAACATGGGTGATCTGCTCGCACGGAGACAAACG TTACGTATACAACAAGACAGCAAACCAGAATAAGGGGGCCACTAAGGGAATTAACGTCAACGACGAGCTGAAATCG CTTTTCGCTTGTCATCACATTAACGATAAGCAACCAAATTTGGTTATGGACATCTGTCAGAACAATGACAAGGAGT TTCATAAATCGCTGATGTACTTGCTTAAAGCTTTGTTGGCTTTACGTTACAGCAATGCTAACTCAGATGAAGACTT CATCTTGTCGCCGGTAGCTAACGATGAGGGCGTCTTCTTTAACAGCGCTCTGGCAGATGACACGCAACCTCAGAAC GCAGACGCTAACGGGGCGTATCATATTGCTCTGAAAGGACTGTGGGTTTTAGAGCAGATTAAGAATTCTGACGATT TAGACAAGGTGGATTTGGAAATTAAGGATGATGAATGGCGCAACTTTGCCCAAAACCGTTAA SEQ ID NO: 89 ART22_Optimized2 ATGTTGTTTCAGGATTTCACGCACCTGTATCCATTGTCGAAGACGGTTCGTTTCGAGCTTAAACCAATTGGGAAGA CTCTGGAGCATATCCACGCGAAGAATTTCTTGAGCCAAGATAAGACCATGGCAGATATGTACCAAAAAGTTAAAGC TATCCTTGACGACTACCATCGCGATTTCATTGCAGACATGATGGGAGAGGTCAAGCTTACCAAGCTGGCGGAGTTT TGCGATGTCTACTTGAAGTTTCGTAAGAACCCGAAGGATGACGGTCTTCAAAAGCAGTTAAAAGATTTGCAAGCGG TGTTACGTAAAGAAATTGTCAAGCCGATCGGCAATGGTGGCAAGTATAAGGTTGGGTATGATCGTCTGTTTGGTGC TAAACTTTTTAAAGACGGAAAGGAGTTGGGAGACCTTGCCAAGTTTGTAATCGCTCAGGAATCAGAGAGTTCGCCA AAGCTTCCTCAAATTGCGCATTTCGAGAAGTTCAGTACCTATTTCACTGGTTTTCATGACAATCGCAAGAATATGT ACTCATCAGATGACAAGCATACCGCAATCGCATACCGTTTAATTCATGAAAATCTGCCACGCTTCATCGATAACCT TCAGATCTTAGCTACAATCAAACAAAAACACTCCGCACTTTACGACCAGATCGCCTCCGAATTGACCGCAAGTGGT CTGGACGTGAGCCTGGCTTCCCACTTGGGGGGATACCACAAACTTCTGACCCAAGAGGGTATCACAGCGTATAATC GCATTATTGGTGAAGTAAACTCCTATACTAACAAACACAACCAAATCTGTCATAAAAGCGAGCGTATTGCGAAGTT ACGCCCCCTGCACAAACAAATTCTGAGCGACGGAATGGGTGTAAGTTTCCTGCCTTCTAAATTCGCAGACGATAGT GAGATGTGCCAGGCGGTCAACGAGTTCTACCGCCACTACGCCGATGTATTTGCGAAAGTTCAAAGCCTGTTCGACC GTTTCGATGACTACCAAAAGGACGGCATCTACGTGGAGCATAAAAACTTGAACGAATTATCGAAACGCGCATTTGG CGATTTCGGCTTCTTAAAGCGCTTCCTGGAGGAGTACTATGCTGATGTAATTGACCCGGAGTTCAACGAGAAATTT GCAAAGACCGAACCTGACTCTGACGAGCAGAAAAAGTTAGCCGGCGAGAAGGACAAATTTGTAAAAGGAGTGCATA GCTTGGCCTCATTAGAACAAGTAATCGAGTACTATACTGCTGGGTATGATGATGAAAGCGTTCAGGCGGATAAACT TGGTCAATACTTTAAACATCGCCTTGCCGGCGTGGATAACCCGATTCAAAAGATTCATAACTCGCATTCAACAATC AAGGGCTTTCTTGAACGCGAACGCCCAGCTGGTGAGCGCGCCTTGCCGAAGATTAAGAGCGACAAAAGCCCGGAGA TGACTCAATTGCGTCAGCTGAAGGAGTTGCTGGATAATGCCCTTAATGTGGTCCATTTCGCAAAGCTGGTCTCGAC GGAGACTGTACTTGACACCCGTTCGGACAAGTTCTACGGCGAGTTTCGCCCTCTTTACGTGGAGCTGGCTAAAATC ACTACATTATACAACAAGGTGCGCGATTACTTAAGCCAAAAGCCGTTTAGTACGGAAAAATATAAGTTAAACTTCG GTAACCCGACCTTGTTAAATGGATGGGACCTGAATAAAGAAAAAGACAACTTCGGCGTGATTTTGCAAAAAGATGG TTGTTACTATTTAGCGTTACTGGATAAAGCACACAAAAAGGTTTTCGATAACGCGCCCAACACCGGCAAATCAGTG TACCAGAAAATGGTCTATAAGCAAATTGCAAATGCCCGCCGTGACTTGGCGTGCTTATTGATCATTAATGGTAAGG TGGTACGTAAGACCAAGGGGCTTGATGATCTGCGTGAGAAATATTTACCATATGACATCTACAAAATTTATCAAAG CGAGAGTTACAAAGTTTTATCCCCCAATTTTAATCATCAGGATCTTGTCAAGTATATCGACTATAATAAAATTCTG GCTTCGGGATACTTCGAGTACTTCGATTTCCGCTTTAAGGAATCTAGCGAGTACAAATCGTATAAAGAGTTCTTAG ATGATGTTGATAATTGCGGATATAAAATTTCGTTTTGCAATATCAACGCAGATTATATCGATGAACTGGTAGAGCA AGGGCAGCTGTATTTGTTCCAAATTTATAACAAAGACTTTAGTCCAAAGGCCCACGGAAAGCCAAATCTGCACACT TTATATTTTAAGGCGCTTTTCAGTGAAGATAACTTAGCGAATCCTATTTACAAGTTAAACGGCGAGGCTCAGATCT TCTATCGCAAGGCGAGCCTTGATATGAACGAGACAACGATTCACCGTGCGGGCGAAGTGTTAGAAAATAAAAACCC AGATAATCCAAAGCAACGCCAGTTTGTGTATGATATCATTAAAGACAAACGTTACACACAAGATAAGTTCATGCTG CACGTCCCCATTACTATGAACTTTGGTGTGCAGGGAATGACAATTGAGGGCTTCAACAAAAAAGTGAACCAATCAA TTCAGCAGTACGATGATGTGAATGTCATCGGGATTGACCGTGGGGAGCGCCACCTTTTGTACCTGACTGTCATCAA CTCCAAGGGTGAGATTTTAGAACAACGCAGCCTGAACGATATCATTACTACCTCTGCCAATGGTACCCAGATGACC ACGCCTTATCACAAAATCTTGAACAAGAAAAAAGAGGGCCGTTTGCAGGCGCGTAAGGACTGGGGAGAAATTGAGA CCATCAAAGAACTTAAGGCCGGATATCTTTCCCATGTGGTCCATCAAATTAGCCAGTTGATGCTGAAATACAACGC CATCGTGGTGTTGGAGGATTTGAACTTTGGATTTAAACGCGGGCGTCTGAAGGTCGAGAATCAAGTATACCAAAAC TTTGAGAATGCTCTTATCAAAAAGTTGAATCATTTAGTACTGAAGGATAAAACGGACGATGAAATTGGTAGTTACA AAAATGCCTTGCAGCTTACTAACAACTTTACCGACTTAAAAAGCATCGGTAAACAAACTGGATTCTTATTCTATGT ACCTGCTCGTAACACGTCAAAAATCGACCCGGAAACCGGCTTTGTCGATTTGCTTAAGCCCCGTTACGAGAACATC ACTCAATCCCAGGCATTTTTCGGCAAATTTGACAAGATCTGCTACAACACGGACAAGGGGTATTTTGAGTTTCACA TTGACTATGCAAAATTTACGGATGAAGCTAAGAACAGTCGTCAGACTTGGGTAATCTGCTCACACGGAGACAAACG CTATGTATATAATAAAACCGCTAATCAGAACAAGGGTGCCACAAAAGGTATCAACGTGAACGACGAGCTTAAAAGC TTATTCGCGTGCCATCACATTAACGACAAACAACCCAACTTAGTCATGGATATCTGTCAGAATAATGATAAGGAGT TCCACAAGAGCTTAATGTACCTGTTGAAGGCGCTTCTGGCGTTACGCTACTCAAATGCAAATTCAGACGAAGACTT CATTCTGTCGCCTGTAGCTAACGATGAAGGTGTCTTTTTTAATTCTGCTTTGGCAGATGACACACAGCCGCAAAAT GCGGATGCGAACGGAGCATATCACATTGCGTTGAAGGGTCTTTGGGTCTTGGAGCAAATCAAGAATTCTGACGACT TGGATAAGGTAGATCTTGAAATCAAGGACGATGAATGGCGTAATTTTGCACAGAATCGTTAA SEQ ID NO: 90 ART22_Optimized3 ATGCTTTTCCAAGACTTTACTCACCTTTACCCACTTTCAAAAACAGTACGTTTCGAATTAAAGCCTATTGGCAAGA CGTTAGAGCACATCCATGCAAAGAACTTTTTATCGCAAGATAAGACAATGGCCGATATGTATCAGAAAGTCAAGGC AATCTTGGATGATTATCACCGTGATTTTATCGCTGATATGATGGGCGAAGTTAAATTAACTAAACTTGCAGAGTTT TGTGACGTCTATTTAAAATTTCGCAAAAACCCGAAAGACGATGGGTTGCAGAAGCAACTTAAAGATCTGCAGGCGG TACTGCGCAAGGAAATTGTAAAGCCCATTGGGAACGGCGGGAAGTACAAAGTGGGGTATGATCGCCTGTTCGGCGC GAAACTTTTCAAAGACGGAAAAGAATTGGGCGATCTGGCTAAATTTGTTATTGCTCAAGAAAGCGAGAGCTCGCCG AAATTACCTCAAATTGCGCATTTCGAAAAATTCAGCACGTATTTTACAGGCTTTCACGATAATCGCAAGAATATGT ATTCGTCTGACGACAAACACACGGCGATCGCGTACCGCTTAATTCACGAAAATCTGCCTCGCTTCATTGACAATCT TCAAATTCTTGCGACAATCAAACAGAAGCACTCTGCTTTATACGACCAAATTGCTAGCGAGCTTACAGCCTCTGGT TTGGACGTCTCACTTGCTAGCCATCTTGGAGGTTATCACAAGTTGTTGACCCAGGAAGGGATTACGGCCTATAACC GCATTATTGGAGAAGTCAACTCGTACACGAACAAGCACAACCAAATCTGTCATAAAAGTGAACGCATTGCAAAATT GCGTCCGCTTCACAAACAGATTCTTAGTGATGGAATGGGGGTGTCATTTCTGCCGTCAAAGTTCGCGGATGATAGT GAAATGTGTCAGGCTGTGAATGAATTCTACCGTCATTACGCGGACGTATTCGCCAAGGTGCAGTCATTATTTGATC GCTTTGATGACTATCAGAAGGACGGTATTTATGTGGAGCACAAAAATCTGAACGAATTATCCAAACGCGCATTCGG GGACTTCGGGTTTTTGAAGCGTTTCCTTGAAGAGTACTACGCCGATGTCATCGACCCAGAGTTCAATGAAAAGTTT GCGAAAACAGAACCAGATAGTGACGAACAAAAGAAGCTGGCAGGTGAGAAAGACAAATTCGTCAAGGGAGTGCATT CTCTGGCTTCATTAGAGCAGGTTATTGAATACTACACGGCGGGCTATGACGACGAGTCGGTGCAGGCCGATAAGTT AGGGCAGTACTTCAAGCACCGTTTAGCTGGGGTCGATAATCCCATCCAGAAGATTCACAATTCCCACAGCACGATC AAAGGCTTCCTGGAACGTGAGCGCCCCGCGGGCGAGCGTGCTCTGCCTAAAATTAAAAGTGACAAGTCTCCAGAGA TGACCCAGTTACGTCAGCTGAAAGAGTTATTAGACAACGCACTGAACGTAGTACACTTCGCAAAACTGGTATCAAC AGAGACAGTCCTGGATACGCGCTCGGACAAGTTTTATGGTGAGTTCCGCCCCTTGTACGTCGAGTTGGCGAAGATC ACAACACTGTATAACAAAGTTCGTGACTATCTGTCTCAAAAGCCGTTTTCCACAGAAAAGTACAAGCTTAATTTCG GAAATCCTACACTTCTGAATGGCTGGGACTTAAACAAAGAGAAGGACAACTTTGGAGTCATTCTTCAAAAAGATGG GTGTTACTACCTGGCGCTTCTGGACAAGGCCCATAAAAAGGTGTTTGACAATGCCCCAAACACAGGCAAGTCTGTC TATCAGAAAATGGTCTACAAGCAAATTGCCAACGCCCGCCGCGACCTGGCATGTCTGCTTATTATCAACGGCAAGG TTGTTCGTAAAACAAAGGGGCTGGACGATTTGCGCGAAAAATATCTGCCATACGACATTTATAAGATTTATCAATC AGAATCTTACAAAGTCCTTTCCCCAAACTTCAACCATCAGGACTTAGTTAAGTATATCGATTATAATAAGATCTTA GCAAGTGGGTACTTCGAATACTTTGACTTTCGCTTTAAAGAATCCAGCGAGTACAAGAGCTATAAGGAATTTCTTG ATGACGTTGACAACTGTGGCTATAAAATTTCGTTTTGTAACATTAATGCGGATTACATTGATGAACTTGTAGAACA GGGGCAATTGTATCTTTTCCAAATCTACAATAAAGATTTTAGTCCCAAGGCGCATGGAAAGCCAAACTTACATACC TTATATTTCAAAGCACTTTTTTCCGAGGACAACTTGGCTAACCCAATTTATAAGCTTAACGGGGAAGCGCAGATCT TTTACCGCAAAGCAAGTTTAGATATGAACGAAACCACGATTCACCGTGCCGGAGAGGTCCTGGAAAACAAAAATCC AGACAATCCGAAACAGCGCCAATTCGTGTATGATATCATCAAAGACAAGCGTTACACGCAGGACAAATTTATGTTA CATGTTCCAATCACCATGAACTTTGGCGTACAAGGCATGACCATCGAGGGATTTAATAAGAAGGTCAATCAATCAA TTCAGCAATATGACGATGTCAATGTAATCGGGATCGATCGTGGAGAGCGCCACCTGCTGTACCTGACTGTCATCAA CTCAAAGGGTGAGATCTTAGAGCAGCGTTCGTTGAATGACATCATTACCACATCAGCTAATGGTACCCAAATGACC ACACCATACCACAAAATCCTGAATAAAAAGAAAGAAGGCCGCTTGCAGGCGCGTAAAGATTGGGGCGAGATTGAAA CGATTAAGGAACTGAAAGCAGGTTACTTGTCTCATGTTGTACATCAAATTTCACAACTGATGTTGAAATATAATGC GATTGTTGTATTGGAGGATTTGAATTTCGGATTTAAGCGCGGACGCCTTAAAGTTGAGAATCAAGTGTACCAAAAC TTCGAGAACGCCTTGATCAAAAAGCTTAACCATTTGGTGCTTAAGGATAAGACAGACGATGAGATTGGCAGTTATA AAAATGCATTGCAGCTTACGAACAACTTTACCGACCTGAAATCTATTGGGAAACAAACGGGTTTTTTATTTTATGT GCCGGCGCGCAACACGTCCAAAATTGATCCGGAGACAGGATTTGTCGATCTTCTTAAACCCCGTTACGAAAATATC ACCCAGTCGCAAGCCTTTTTCGGCAAATTCGATAAGATTTGTTATAACACAGACAAGGGATACTTTGAATTCCACA TTGACTACGCAAAGTTTACCGATGAAGCCAAAAACTCACGTCAAACATGGGTCATTTGCAGTCACGGTGATAAGCG TTACGTTTATAATAAGACCGCCAATCAGAATAAAGGTGCAACGAAAGGTATCAACGTAAATGATGAACTTAAGAGC CTTTTCGCCTGCCACCATATTAACGACAAGCAACCGAATTTAGTTATGGACATCTGTCAAAACAATGATAAAGAAT TTCATAAATCTCTGATGTATTTGCTTAAGGCGCTGTTAGCCCTTCGTTATTCTAATGCAAACAGCGACGAGGATTT CATTCTGTCCCCAGTGGCAAACGATGAGGGGGTGTTTTTCAATTCGGCCTTGGCCGATGACACCCAGCCCCAAAAC GCGGATGCAAACGGGGCGTACCACATTGCGCTGAAGGGCCTTTGGGTATTAGAGCAAATCAAGAACTCCGATGACT TAGATAAAGTGGACCTGGAAATCAAGGACGATGAGTGGCGTAATTTTGCACAGAATCGCTAA SEQ ID NO: 91 ART23_WT ATGGGTAAAAATCAAAATTTTCAGGAATTTATTGGGGTATCACCACTTCAAAAGACTTTAAGAAACGAAT TGATCCCAACAGAAACAACAAAAAAGAATATTACTCAGCTTGATCTTTTGACGGAGGATGAAATCCGTGC GCAAAATCGAGAGAAGCTGAAAGAGATGATGGATGACTACTACCGGGATGTGATTGATAGCACTTTGCAT GCGGGTATAGCTGTTGATTGGAGCTATTTATTTTCGTGTATGCGAAATCATCTAAGGGAGAATTCCAAAG AGTCAAAGCGGGAATTGGAACGAACACAGGATTCTATTCGTTCACAAATCTATAATAAGTTTGCTGAACG AGCGGATTTTAAGGATATGTTTGGAGCATCGATAATAACAAAATTACTTCCGACATATATAAAACAGAAT CCAGAATATTCCGAGCGGTATGACGAGAGCATGGAAATTTTGAAACTGTATGGAAAATTCACAACATCGT TGACCGATTACTTTGAGACAAGAAAGAATATCTTTTCTAAAGAGAAAATATCTTCTGCCGTTGGATATCG AATCGTAGAGGAAAATGCTGAGATCTTCTTGCAGAATCAGAATGCTTACGACAGAATCTGTAAGATAGCG GGACTGGATTTACATGGATTGGATAATGAAATAACAGCATATGTTGATGGAAAAACATTAAAAGAAGTAT GTTCGGATGAAGGATTTGCAAAGGCTATTACACAAGAAGGGATTGATCGCTACAACGAGGCAATCGGTGC AGTAAATCAATATATGAATCTGTTATGCCAGAAGAATAAGGCATTAAAACCGGGACAATTTAAGATGAAG CGGTTACATAAACAGATTCTTTGCAAAGGAACAACCTCTTTCGATATTCCAAAGAAATTTGAAAATGATA AACAGGTGTATGACGCAGTTAATTCTTTTACAGAGATAGTAATGAAGAATAATGATTTGAAGCGACTGTT AAATATTACACAGAATGTAAATGATTATGACATGAATAAAATCTATGTAGCAGCCGATGCATATAGTACG ATTTCACAGTTTATCAGTAAAAAATGGAATCTGATTGAAGAATGTTTGCTGGATTATTATAGCGATAATT TGCCGGGAAAAGGAAATGCGAAAGAAAACAAAGTTAAAAAGGCGGTAAAGGAAGAAACGTATCGCAGTGT TTCACAGTTGAATGAACTTATTGAGAAATATTATGTGGAAAAGACAGGACAGTCAGTATGGAAAGTGGAA AGTTATATTTCGAGGCTGGCAGAAACGATTACATTGGAATTGTGTCATGAGATAGAAAACGATGAGAAGC ATAATCTGATTGAAGATGATGACAAGATATCCAAGATCAAGGAACTGTTGGATATGTACATGGATGCATT TCATATTATAAAAGTGTTCCGGGTGAATGAAGTATTGAATTTCGATGAAACCTTTTATTCGGAGATGGAT GAGATTTATCAGGATATGCAGGAAATCGTTCCATTATACAATCATGTTCGAAACTATGTTACACAGAAAC CATATAAACAGGAGAAATATCGTTTATATTTCAACACTCCAACATTGGCAAATGGCTGGTCCAAGAATAA GGAATATGATAACAACGCTATTATCTTAATGCGAGATGATAAATATTATTTAGGTATTCTGAATGCAAAA AAGAAACCATCGAAACAAACTATGGCGGGCAAAGAGGACTGTTTAGAACATGCGTATGCAAAGATGAATT ATTATTTGTTGCCGGGTGCGAACAAGATGCTTCCAAAAGTATTTTTATCTAAGAAAGGAATACAGGACTA TCACCCATCATCATATATTGTTGAAGGATATAATGAAAAGAAACATATTAAAGGTTCCAAGAATTTTGAT ATCCGGTTTTGTAGGGATTTGATTGACTACTTCAAGGAATGCATTAAAAAACATCCGGATTGGAATAAGT TTAACTTTGAATTTTCTGCGACAGAAACATATGAGGATATCAGTGTCTTTTATCGCGAAGTTGAAAAGCA AGGATATCGCGTAGAGTGGACGTATATCAATAGTGAAGATATTCAGAAACTGGAAGAAGATGGACAGTTG TTTTTATTTCAGATATATAACAAAGATTTTGCTGTGGGAAGTACAGGTAAACCAAATCTTCATACATTGT ATCTGAAAAATCTGTTCAGCGAAGAAAATTTGCGGGACATTGTATTAAAACTAAATGGGGAAGCAGAAAT ATTCTTCCGTAAATCAAGTGTTCAAAAACCGGTGATTCATAAGTGCGGCAGTATTTTAGTCAATCGTACC TATGAGATTACCGAGAGTGGAACAACACGGGTACAATCAATTCCGGAAAGTGAATACATGGAATTATATC GCTACTTTAATAGTGAAAAGCAGATAGAATTATCAGATGAGGCAAAAAAATATTTGGACAAGGTGCAATG TAATAAGGCAAAGACAGATATTGTGAAAGACTACCGATACACCATGGACAAGTTTTTTATTCATCTTCCG ATTACGATTAATTTTAAGGTTGATAAGGGTAACAATGTTAATGCCATTGCACAGCAATATATTGCAGAGC AGGAAGATTTGCATGTGATAGGAATCGATAGAGGAGAACGGAATCTGATTTACGTTTCTGTAATTGACAT GTATGGCAGAATTTTAGAGCAGAAATCCTTTAACCTTGTGGAACAGGTATCGTCGCAGGGAACGAAGCGA TATTACGATTACAAAGAAAAATTACAGAACCGGGAAGAGGAACGGGATAAAGCAAGAAAGAGTTGGAAGA CAATCGGCAAGATTAAGGAATTAAAAGAGGGGTATCTGTCGTCAGTAATTCATGAGATTGCACAGATGGT CGTAAAGTATAACGCAATCATTGCAATGGAAGATTTGAATTATGGATTTAAGCGGGGAAGATTCAAAGTA GAGCGCCAGGTATATCAGAAATTTGAAACGATGTTGATCAGTAAGTTGAATTATCTGGCAGATAAATCTC AGGCTGTGGATGAACCGGGAGGTATATTACGGGGATATCAGATGACTTATGTGCCGGATAATATTAAGAA TGTTGGAAGACAATGTGGAATAATCTTTTATGTGCCGGCAGCATATACCTCCAAGATTGATCCGACAACC GGATTTATCAATGCATTTAAGCGGGATGTGGTATCAACAAATGATGCAAAAGAGAATTTCTTGATGAAGT TTGATTCTATTCAGTACGATATAGAAAAAGGCTTATTTAAGTTTTCATTTGATTACAAAAATTTTGCCAC ACATAAACTTACACTTGCGAAGACAAAATGGGACGTATATACAAATGGAACTCGAATACAAAACATGAAA GTTGAAGGACATTGGCTTTCAATGGAAGTTGAACTTACAACGAAAATGAAAGAGTTGCTGGATGACTCGC ATATTCCATATGAAGAAGGACAGAATATATTGGATGATTTGCGGGAGATGAAAGATATAACAACCATTGT GAATGGTATATTGGAAATCTTCTGGTTGACAGTCCAGCTTCGGAATAGCAGGATAGATAATCCGGATTAC GATAGAATTATCTCACCGGTACTGAATAATGATGGAGAATTTTTTGATTCTGATGAATATAATTCATATA TTGATGCGCAAAAGGCACCGTTACCGATAGATGCCGATGCAAATGGCGCATTTTGCATTGCATTAAAAGG AATGTATACTGCCAATCAGATCAAAGAAAACTGGGTTGAAGGGGAGAAACTTCCGGCGGATTGCTTGAAG ATCGAACATGCGAGTTGGTTAGCATTTATGCAAGGAGAAAGGGGATAG SEQ ID NO: 92 ART23_Optimized1 ATGGGTAAGAATCAAAACTTTCAAGAATTCATTGGCGTTTCTCCTTTACAAAAAACTTTACGTAATGAACTGATTC CCACGGAAACCACGAAGAAAAACATCACCCAGCTTGACTTATTAACAGAGGACGAAATTCGTGCTCAAAATCGTGA AAAGCTTAAGGAGATGATGGACGATTACTATCGCGACGTAATCGACTCTACGTTACATGCAGGCATCGCCGTCGAT TGGTCGTACTTATTTAGTTGTATGCGTAATCATTTGCGCGAGAATAGCAAGGAATCGAAGCGCGAGCTGGAACGCA CGCAGGACAGCATTCGCTCACAAATCTACAACAAATTCGCAGAACGCGCTGACTTTAAGGATATGTTCGGTGCCAG TATTATTACCAAATTACTGCCTACGTACATTAAACAAAATCCAGAGTACAGTGAACGTTACGATGAGTCTATGGAA ATCCTTAAGCTGTATGGTAAATTCACTACATCACTTACTGATTATTTCGAAACACGCAAAAACATTTTCAGTAAAG AGAAGATCTCAAGTGCCGTGGGGTACCGCATTGTTGAAGAGAATGCGGAAATCTTCTTACAAAACCAAAATGCGTA CGATCGCATCTGTAAAATTGCCGGATTGGACCTGCATGGCTTAGATAATGAGATCACAGCCTATGTGGACGGTAAA ACGCTGAAAGAGGTTTGCTCGGATGAGGGTTTCGCGAAGGCGATCACCCAAGAAGGCATCGACCGTTATAACGAGG CCATCGGGGCAGTCAATCAATATATGAATCTGCTGTGTCAGAAGAATAAGGCGCTTAAGCCCGGGCAATTCAAAAT GAAGCGTTTGCATAAGCAAATCCTTTGCAAAGGTACTACGAGTTTCGACATTCCGAAGAAGTTCGAGAACGACAAG CAAGTGTACGACGCAGTTAATTCGTTTACAGAAATCGTTATGAAAAACAACGATTTAAAGCGCCTTTTAAATATTA CTCAAAACGTCAATGATTATGACATGAATAAGATTTACGTTGCTGCAGATGCGTACTCTACAATCTCTCAGTTCAT CTCCAAGAAATGGAATTTGATCGAGGAATGTTTGTTGGACTACTACAGCGATAACTTGCCCGGCAAGGGAAACGCG AAGGAGAACAAAGTAAAGAAGGCGGTGAAAGAAGAAACTTATCGTAGTGTGTCACAGCTTAATGAGTTGATCGAGA AGTATTACGTAGAAAAAACCGGTCAAAGCGTATGGAAGGTGGAGAGTTACATTTCTCGTTTGGCCGAAACAATTAC CCTGGAGCTGTGTCATGAAATTGAAAACGATGAAAAACACAATCTGATTGAAGATGATGACAAAATTAGCAAAATC AAAGAGCTGCTGGATATGTACATGGATGCGTTCCATATTATCAAGGTTTTTCGCGTCAACGAAGTACTGAATTTTG ATGAAACTTTTTACTCCGAAATGGACGAAATTTATCAGGACATGCAAGAGATTGTCCCTCTTTATAACCATGTTCG TAACTACGTGACGCAGAAGCCATACAAACAAGAGAAATATCGCCTGTATTTTAATACGCCTACGTTAGCAAATGGG TGGTCAAAAAACAAGGAATATGATAACAATGCTATCATTCTTATGCGTGATGATAAATACTATCTGGGTATTTTGA ATGCCAAAAAGAAACCATCCAAGCAAACAATGGCCGGTAAAGAGGACTGCCTGGAGCATGCATATGCGAAGATGAA CTATTATCTTTTACCGGGCGCTAATAAAATGCTGCCGAAGGTATTCCTGAGTAAGAAAGGTATTCAAGACTATCAT CCCAGTTCCTACATTGTTGAAGGTTATAACGAGAAGAAACACATTAAAGGTTCGAAGAATTTTGACATCCGCTTCT GTCGCGACTTAATTGACTACTTCAAAGAATGCATCAAGAAGCACCCCGACTGGAATAAATTTAATTTTGAGTTCAG TGCCACTGAAACGTATGAAGACATTTCCGTGTTCTACCGCGAGGTGGAAAAGCAAGGGTATCGCGTCGAATGGACG TATATTAACTCGGAAGATATTCAGAAGCTGGAAGAAGACGGACAGTTATTCCTTTTTCAGATCTATAATAAAGATT TCGCCGTAGGTTCGACAGGTAAGCCCAACCTTCACACCTTGTACTTAAAGAATTTGTTTTCTGAAGAGAACCTGCG TGACATCGTCTTGAAGCTGAATGGCGAGGCTGAAATCTTTTTTCGTAAGTCCTCAGTTCAAAAGCCGGTTATCCAT AAGTGCGGCAGTATTTTAGTTAACCGCACGTATGAAATTACGGAGAGTGGCACCACCCGCGTCCAGTCAATTCCGG AAAGTGAGTATATGGAATTGTACCGCTATTTTAATTCAGAAAAACAAATCGAGCTTTCAGACGAAGCGAAGAAATA CCTTGATAAGGTCCAGTGTAATAAAGCCAAGACGGATATTGTAAAGGATTATCGTTACACTATGGATAAGTTTTTC ATTCATCTTCCAATCACGATTAATTTCAAAGTTGATAAGGGCAACAACGTGAATGCAATTGCCCAACAGTACATTG CCGAACAGGAGGACCTTCACGTTATCGGGATTGACCGTGGAGAACGCAACTTAATTTACGTCTCTGTCATTGACAT GTATGGCCGTATTTTGGAACAGAAATCATTTAACTTAGTCGAGCAAGTGTCTTCGCAGGGCACCAAACGCTATTAT GATTACAAAGAGAAGTTGCAAAACCGCGAGGAAGAACGCGATAAGGCTCGTAAATCATGGAAGACAATCGGGAAGA TCAAGGAATTGAAAGAAGGCTACCTGTCGAGTGTGATTCACGAGATTGCCCAGATGGTGGTCAAATACAACGCGAT TATTGCAATGGAGGACCTTAACTATGGATTCAAACGCGGGCGTTTTAAGGTGGAACGCCAAGTTTATCAAAAGTTT GAAACAATGCTTATCTCTAAATTAAACTATTTAGCAGATAAGAGTCAAGCCGTGGACGAGCCCGGTGGCATCTTGC GCGGATACCAGATGACTTACGTGCCGGATAACATCAAAAACGTGGGCCGCCAATGTGGCATTATCTTTTACGTGCC GGCCGCCTACACTTCCAAGATCGATCCTACCACGGGGTTTATTAATGCATTTAAGCGCGACGTGGTATCAACAAAT GACGCAAAGGAAAACTTTCTGATGAAGTTTGACAGCATCCAGTACGACATCGAGAAGGGATTATTTAAATTCTCTT TCGACTATAAAAATTTTGCTACCCACAAACTGACCCTTGCGAAGACGAAGTGGGATGTATATACTAACGGGACCCG CATTCAGAACATGAAGGTTGAAGGACACTGGCTTTCGATGGAGGTCGAGCTTACCACTAAGATGAAGGAGTTATTG GACGACAGTCATATTCCTTATGAGGAGGGTCAGAACATTTTAGACGATCTGCGCGAGATGAAAGACATCACGACGA TCGTGAACGGAATTTTGGAAATCTTCTGGTTGACTGTGCAACTTCGTAACTCGCGCATTGACAATCCCGACTACGA CCGCATTATCTCGCCCGTGCTGAATAACGATGGGGAATTTTTCGACTCAGACGAATATAATTCCTATATCGACGCG CAGAAAGCGCCACTGCCTATCGACGCCGATGCGAATGGAGCGTTTTGCATTGCCTTGAAGGGGATGTACACGGCAA ATCAGATCAAAGAGAACTGGGTTGAAGGAGAGAAATTACCGGCTGATTGCCTGAAGATCGAGCATGCCTCTTGGTT GGCGTTTATGCAGGGTGAGCGTGGCTAG SEQ ID NO: 93 ART23_Optimized2 ATGGGTAAAAACCAAAATTTTCAGGAGTTCATCGGTGTAAGCCCCCTTCAGAAAACTCTTCGCAATGAACTGATTC CCACTGAAACTACGAAGAAGAATATTACACAGTTGGATCTGTTGACCGAGGACGAAATTCGCGCACAGAATCGTGA AAAACTTAAGGAAATGATGGACGACTACTATCGCGACGTGATTGATAGTACACTGCACGCGGGCATTGCTGTCGAC TGGAGCTACCTTTTTTCGTGCATGCGCAACCACCTGCGCGAAAATTCTAAGGAAAGTAAACGTGAGCTTGAGCGTA CACAGGACTCTATTCGTTCCCAAATTTACAACAAATTTGCAGAGCGTGCGGATTTCAAAGACATGTTCGGCGCCTC AATCATTACTAAATTACTGCCCACCTATATTAAGCAAAATCCTGAGTATTCTGAGCGCTACGATGAGTCTATGGAA ATCCTTAAACTGTATGGAAAGTTTACAACATCATTAACGGATTATTTTGAAACGCGTAAGAACATTTTTAGTAAAG AAAAGATCTCCAGCGCCGTCGGCTACCGTATTGTCGAGGAAAACGCTGAGATCTTTTTGCAAAACCAAAACGCATA TGATCGTATTTGCAAAATTGCTGGGCTTGACCTTCATGGGTTGGACAACGAGATCACAGCATATGTGGATGGGAAA ACGCTGAAGGAAGTCTGTAGTGATGAGGGCTTCGCAAAAGCGATCACTCAGGAAGGTATTGATCGCTACAATGAGG CAATTGGCGCGGTTAACCAATACATGAATTTACTTTGTCAGAAAAACAAAGCGTTGAAGCCTGGTCAGTTTAAGAT GAAGCGTCTTCATAAACAGATTTTATGCAAGGGTACCACGTCCTTTGATATCCCGAAAAAGTTCGAAAACGACAAA CAAGTGTATGACGCCGTCAATAGCTTTACGGAGATCGTAATGAAAAATAACGATCTGAAGCGTCTTTTGAATATTA CACAGAATGTGAATGACTATGATATGAACAAAATTTACGTAGCCGCAGATGCGTATTCTACGATCAGTCAGTTCAT TAGCAAAAAGTGGAACTTAATCGAAGAATGCCTTCTTGACTACTATAGTGATAACCTTCCAGGCAAAGGAAACGCT AAGGAAAATAAGGTGAAGAAGGCCGTGAAGGAAGAAACGTATCGTAGTGTCTCACAGTTGAACGAATTGATCGAGA AGTATTATGTGGAAAAGACTGGACAGTCGGTGTGGAAGGTTGAGTCATACATCTCGCGCTTAGCAGAGACCATTAC TCTTGAGTTGTGTCATGAGATTGAGAACGATGAAAAACACAATTTAATCGAGGATGACGACAAAATTTCGAAAATC AAGGAATTATTGGATATGTATATGGACGCATTTCACATCATCAAGGTTTTCCGTGTTAACGAAGTATTAAATTTCG ACGAGACTTTTTATTCCGAAATGGATGAGATTTACCAGGATATGCAAGAAATCGTGCCTTTGTATAACCACGTTCG CAACTACGTAACCCAAAAGCCATACAAACAAGAGAAGTATCGTTTGTATTTCAACACGCCAACTCTTGCAAACGGT TGGTCGAAAAATAAGGAGTACGATAACAATGCCATCATTCTGATGCGCGATGACAAGTACTACTTAGGTATCTTAA ATGCGAAAAAGAAGCCTTCGAAACAAACTATGGCCGGGAAGGAAGATTGCTTAGAGCATGCTTATGCTAAGATGAA CTACTACTTGTTGCCAGGGGCTAATAAGATGCTGCCTAAAGTCTTTCTGTCGAAGAAGGGGATTCAGGACTACCAT CCGTCATCGTATATTGTGGAGGGCTACAACGAGAAGAAACACATCAAAGGTTCTAAGAATTTTGATATTCGCTTCT GCCGCGATTTGATTGACTACTTCAAGGAATGCATCAAAAAGCATCCAGATTGGAACAAATTTAACTTCGAATTTTC CGCCACTGAAACCTATGAAGATATCTCCGTATTTTACCGCGAGGTCGAAAAGCAGGGTTACCGCGTAGAGTGGACA TATATTAATTCAGAAGACATTCAGAAATTAGAAGAGGATGGTCAGTTGTTTCTGTTTCAGATCTATAACAAGGATT TCGCGGTCGGGTCCACTGGGAAGCCTAATTTGCATACGCTTTATTTAAAAAACTTATTTAGTGAAGAAAACCTGCG TGACATTGTACTGAAACTTAATGGTGAAGCAGAAATTTTTTTCCGCAAGTCGTCCGTCCAGAAACCTGTTATCCAT AAGTGCGGTAGTATCCTGGTCAATCGCACTTATGAAATTACGGAGAGTGGCACGACTCGCGTGCAGTCAATTCCAG AGTCGGAATACATGGAGCTGTACCGTTATTTCAACTCTGAGAAACAAATCGAGCTGTCTGACGAGGCAAAGAAGTA TCTTGACAAGGTTCAATGTAACAAGGCTAAGACGGACATCGTGAAAGATTACCGCTATACCATGGACAAATTTTTT ATTCATCTGCCCATCACTATCAACTTTAAGGTTGACAAAGGTAACAATGTGAATGCAATTGCGCAACAATACATCG CCGAGCAAGAGGACTTACACGTCATTGGAATTGATCGTGGGGAACGTAACTTGATCTACGTGAGCGTCATCGATAT GTACGGTCGTATTTTAGAACAAAAATCATTTAATTTGGTCGAACAAGTTTCATCTCAAGGAACGAAGCGCTACTAC GATTATAAGGAAAAACTTCAAAACCGTGAGGAAGAGCGCGATAAGGCACGCAAGTCGTGGAAGACAATTGGCAAGA TCAAGGAATTGAAGGAGGGCTATCTGAGCAGCGTGATTCATGAAATTGCCCAAATGGTTGTCAAATACAACGCGAT CATTGCGATGGAAGATCTGAACTATGGATTTAAGCGTGGGCGCTTTAAAGTAGAACGTCAGGTGTATCAGAAGTTT GAGACAATGCTGATTAGCAAATTAAATTATCTGGCCGACAAGAGCCAAGCAGTTGACGAACCTGGCGGTATTTTAC GCGGTTATCAAATGACCTACGTGCCCGACAACATCAAAAACGTGGGACGCCAATGTGGGATTATCTTCTACGTCCC AGCGGCCTATACATCTAAAATCGACCCGACAACTGGATTTATTAACGCGTTTAAACGTGATGTTGTTTCTACAAAT GATGCCAAAGAAAACTTCCTTATGAAATTCGACTCCATCCAATACGATATTGAGAAAGGCCTTTTCAAGTTCAGCT TCGACTACAAGAACTTCGCAACGCATAAGCTTACCCTTGCTAAAACTAAGTGGGATGTATATACGAACGGGACCCG TATTCAGAATATGAAAGTCGAGGGGCATTGGCTGTCAATGGAAGTAGAACTTACCACAAAGATGAAAGAATTACTG GACGACTCTCATATCCCGTACGAAGAAGGTCAGAATATCCTGGATGATCTTCGCGAGATGAAAGACATCACAACTA TTGTGAACGGCATTTTAGAAATTTTTTGGCTGACCGTACAACTTCGCAACAGTCGTATCGACAACCCCGACTACGA CCGTATTATCAGTCCCGTCCTTAACAACGATGGAGAATTTTTTGATTCAGACGAGTATAACTCCTACATCGATGCC CAGAAAGCGCCCTTACCGATCGACGCCGACGCAAACGGAGCATTTTGCATCGCACTTAAGGGGATGTACACTGCCA ACCAGATTAAGGAAAATTGGGTAGAAGGTGAAAAGTTACCCGCTGATTGTCTTAAAATTGAGCATGCGTCCTGGTT AGCTTTCATGCAGGGCGAGCGTGGATAG SEQ ID NO: 94 ART23_Optimized3 ATGGGTAAAAACCAGAATTTTCAGGAATTTATCGGTGTTTCCCCACTTCAAAAGACATTGCGCAACGAACTTATCC CTACTGAGACGACTAAAAAGAACATCACTCAATTGGACCTTCTGACAGAAGACGAAATTCGTGCGCAAAATCGTGA GAAACTTAAGGAGATGATGGACGATTACTATCGTGACGTTATCGATTCCACACTGCACGCGGGTATCGCTGTCGAC TGGTCTTACCTGTTTAGCTGCATGCGCAACCACTTGCGTGAGAATAGCAAAGAGAGCAAACGCGAATTGGAGCGTA CGCAGGACTCAATTCGTTCCCAGATTTATAATAAGTTTGCAGAGCGTGCTGATTTCAAGGATATGTTTGGTGCGAG CATCATCACTAAATTGCTGCCCACGTATATCAAACAGAATCCTGAGTATTCGGAGCGCTATGATGAAAGCATGGAG ATCCTTAAATTATATGGGAAATTTACGACAAGCTTGACCGACTATTTTGAGACGCGCAAAAATATCTTTTCCAAAG AGAAGATTTCCAGCGCCGTAGGTTACCGTATTGTCGAGGAGAATGCGGAAATTTTTTTGCAAAACCAAAATGCGTA TGACCGTATCTGTAAAATCGCCGGTCTGGATCTTCATGGCTTGGATAACGAAATCACGGCATACGTCGATGGTAAG ACCCTTAAAGAAGTCTGTTCTGACGAGGGTTTCGCCAAGGCAATTACCCAAGAGGGAATTGACCGCTACAACGAAG CTATCGGCGCCGTTAACCAATATATGAATCTTCTGTGTCAAAAAAACAAGGCCTTAAAACCCGGACAGTTCAAAAT GAAGCGTTTACACAAGCAAATTCTGTGTAAGGGAACGACGTCTTTTGATATTCCAAAAAAGTTCGAAAACGACAAA CAAGTTTACGATGCCGTCAACTCCTTTACTGAGATTGTTATGAAAAACAATGATTTGAAGCGCCTGTTGAACATCA CGCAAAATGTCAATGACTACGACATGAACAAGATTTACGTGGCCGCCGATGCGTATAGTACAATCAGTCAGTTCAT TAGCAAGAAATGGAATTTGATCGAAGAATGTTTGTTAGACTACTATAGTGACAATTTACCCGGAAAGGGCAACGCA AAGGAAAACAAGGTTAAAAAAGCTGTTAAGGAGGAAACCTATCGTAGTGTCAGCCAATTGAACGAGTTAATCGAAA AATACTATGTAGAAAAAACGGGACAGTCCGTTTGGAAAGTCGAAAGTTACATTTCCCGCCTGGCAGAAACTATTAC CTTGGAGCTTTGTCATGAAATCGAAAACGACGAAAAGCACAATTTGATCGAGGACGACGATAAAATTTCAAAGATT AAAGAATTGTTAGACATGTATATGGATGCCTTCCACATCATCAAAGTTTTCCGTGTCAACGAGGTTTTAAATTTTG ACGAGACATTCTACTCAGAAATGGATGAGATCTATCAGGATATGCAAGAAATCGTGCCACTTTACAATCATGTGCG CAATTACGTCACTCAGAAACCGTATAAGCAGGAGAAGTATCGCCTTTACTTCAACACTCCGACACTGGCGAATGGG TGGTCGAAGAACAAGGAATACGACAATAACGCCATTATCTTAATGCGCGACGATAAATATTATCTGGGCATCCTGA ACGCAAAGAAAAAACCATCTAAGCAAACGATGGCGGGGAAAGAAGACTGCTTGGAGCACGCCTACGCAAAAATGAA TTACTACTTGTTGCCAGGCGCGAACAAAATGCTTCCCAAAGTATTTTTGTCCAAAAAGGGCATTCAGGACTATCAC CCTTCATCATACATTGTGGAGGGTTATAATGAGAAAAAACACATCAAAGGATCTAAGAACTTTGATATCCGCTTCT GCCGTGACTTGATCGACTATTTTAAGGAATGTATCAAGAAGCATCCTGACTGGAACAAGTTCAATTTTGAGTTTAG TGCCACAGAAACTTACGAGGATATCTCAGTCTTCTACCGTGAAGTCGAGAAACAGGGCTATCGCGTAGAGTGGACA TATATCAACAGCGAAGATATCCAGAAACTGGAAGAAGATGGTCAGTTATTCTTGTTCCAGATCTATAATAAGGATT TTGCGGTAGGAAGTACTGGCAAACCAAATCTTCACACACTGTATCTGAAAAATCTTTTTTCGGAAGAGAATCTGCG CGATATTGTGCTGAAACTTAATGGGGAGGCGGAAATCTTTTTCCGCAAGTCATCCGTTCAAAAGCCTGTTATTCAT AAATGTGGTTCCATTCTGGTAAATCGCACGTATGAAATCACCGAGTCGGGCACGACCCGCGTCCAGTCGATTCCTG AGTCCGAGTATATGGAGTTGTACCGTTATTTTAACAGCGAGAAACAGATCGAATTATCCGACGAGGCAAAAAAATA CCTTGATAAAGTACAATGTAACAAGGCGAAAACGGATATTGTTAAAGATTATCGCTACACCATGGACAAATTCTTC ATTCACTTACCTATTACCATTAACTTTAAGGTCGACAAGGGCAACAATGTTAACGCTATCGCACAACAATACATTG CAGAGCAAGAAGACCTGCATGTTATTGGGATCGACCGCGGGGAGCGCAATTTAATTTACGTCTCGGTGATTGATAT GTATGGCCGTATTTTAGAGCAAAAAAGTTTCAACCTGGTTGAGCAAGTGTCTTCGCAAGGTACCAAACGTTACTAC GATTATAAGGAGAAATTACAGAATCGCGAGGAGGAGCGCGATAAGGCTCGCAAATCGTGGAAGACAATCGGTAAGA TCAAGGAGCTTAAAGAGGGCTATTTAAGCTCAGTGATTCATGAAATTGCGCAGATGGTCGTCAAGTATAATGCCAT TATTGCAATGGAGGACCTTAACTATGGGTTCAAGCGCGGACGTTTCAAAGTCGAACGCCAAGTATATCAGAAGTTC GAAACTATGCTTATCTCTAAGTTAAACTACTTAGCTGATAAATCTCAAGCTGTTGATGAACCGGGGGGTATCCTGC GTGGGTACCAAATGACATACGTCCCGGATAACATCAAAAATGTAGGCCGTCAGTGTGGTATCATTTTCTACGTGCC GGCTGCATATACGAGTAAAATCGACCCCACAACAGGATTTATCAATGCCTTTAAACGTGACGTCGTTTCAACCAAC GATGCAAAGGAGAATTTCCTGATGAAATTTGATTCGATCCAATACGACATCGAGAAAGGTCTGTTTAAGTTTTCGT TCGACTATAAAAACTTTGCGACGCACAAACTTACGTTAGCCAAAACAAAGTGGGACGTATATACTAACGGAACACG TATCCAGAATATGAAAGTCGAAGGTCACTGGCTTAGTATGGAGGTAGAGCTTACTACCAAGATGAAGGAGTTATTA GATGACTCTCATATTCCTTATGAAGAAGGGCAAAATATCCTTGATGATCTTCGCGAGATGAAAGATATTACAACCA TCGTAAATGGTATCCTTGAGATTTTTTGGTTGACGGTGCAGCTTCGCAACTCGCGTATTGATAACCCCGACTACGA TCGCATTATTAGCCCGGTACTTAACAATGACGGGGAGTTCTTTGATAGCGATGAGTATAATTCCTATATCGACGCA CAGAAAGCACCATTACCCATCGACGCCGACGCCAACGGGGCTTTCTGTATCGCTTTAAAAGGTATGTACACCGCCA ATCAAATCAAGGAAAACTGGGTCGAAGGGGAGAAATTGCCGGCAGATTGCTTAAAAATCGAGCACGCGAGTTGGCT GGCCTTTATGCAGGGAGAACGCGGCTAG SEQ ID NO: 95 ART24_WT ATGAATACAAGTTTATTTTCATCATTCACTCGCCAATATCCAGTTACCAAAACCTTGCGTTTTGAATTAA AACCAATGGGTGCGACATTGGGGCACATTCAGCAAAAAGGTTTTTTACACAAAGATGAAGAGCTGGCAAA AATTTACAAAAAAATCAAAGAACTGCTTGATGAGTATCATCGGGCGTTTATTGCAGATACGCTGGGCGAT GCTCAGCTTGTGGGCTTGGATGATTTTTATGCAGATTATCAAGCACTCAAACAAGACAGTAAAAACAGTC ATCTAAAAGATAAGCTCACCAAAACCCAAGACAATTTACGCAAACAAATCACCAAAAATTTTGAAAAAAC ACCACAGCTTAAAGAACGCTATAAGCGTTTGTTTACTAAGGAGCTGTTTAAAGCTGGTAAGGATAAAGGA GATTTGGAAAAATGGCTGATAAATCATGACAGTGAGCCAAATAAGGCAGAAAAAATCTCATGGATTCATC AATTTGAAAATTTTACCACCTATTTTCAAGGATTTTATGAAAATCGCAAAAATATGTACAGTGATGAAGT CAAACATACTGCCATTGCTTATCGTTTAATCCATGAAAATTTGCCACGCTTTGTTGATAATATACAAGTT TTATCCAAAATCAAATCGGATTATCCTGATTTATATCACGAATTGAATCATTTGGACAGTCGCACGATTG ATTTTGCTGATTTTAAGTTTGATGATATGTTACAGATGGATTTTTATCATCATCTGCTTATCCAATCAGG CATCACCGCTTATAATACGCTTTTGGGCGGTAAAGTATTAGAAGGTGGTAAAAAGTTGCAAGGCATCAAT GAGTTAATAAATCTATATGGTCAAAAACATAAAATTAAGATTGCAAAATTAAAGCCTTTGCACAAACAAA TATTAAGTGATGGACAAAGCGTCTCATTTTTGCCCAAAAAGTTTGATAATGATTATGAATTGTGCCAAAC TGTCAATCATTTTTATCGTGAATATGTGGCTATTTTTGATGAGCTGGTGGTTTTATTTCAAAAATTTTAT GATTATGACAAAGACAACATATATATCAACCATCAACAGCTCAATCAACTATCGCATGAGTTATTTGCTG ATTTTAGGTTATTATCACGTGCGTTGGACTTTTATTATTGTCAGATAATTGATGGTGATTTTAATAATAA AATCAACAACGCCAAAAGCCAAAATGCCAAAGAAAAATTATTAAAAGAAAAAGAGCGATACACCAAATCA AATCATAGCATCAATGAATTGCAAAAGGCAATCAACCACTATGCCAGTCATCATGAAGACACAGAAGTTA AAGTCATTAGTGATTATTTTTCAGCGACAAACATTCGTAATATGATTGATGGCATTCATCATCATTTTAG TACAATCAAAGGTTTTTTGGAAAAGGATAATAACCAAGGCGAGAGTTATCTGCCCAAACAAAAAAACAGC AATGACGTTAAAAATTTAAAATTATTTTTAGATGGTGTTTTGCGACTGATTCATTTTATCAAACCTTTGG CATTAAAATCAGATGATACCCTAGAAAAAGAAGAGCATTTTTATGGGGAGTTTATGCCTTTGTATGATAA ATTGGTAATGTTTACGCTGCTGTATAATAAAGTGCGTGATTATATTAGTCAAAAACCCTATAATGATGAA AAAATCAAACTCAACTTTGGCAATTCAACTTTATTAAATGGTTGGGATGTCAATAAAGAAAAAGATAATT TTGGGGTGATATTATGCAAAGAGGGTTTGTATTATTTGGCGATTTTAGATAAATCCCACAAAAAAGTCTT TGATAATGCACCAAAAGCAACCAGTAGCCACACATATCAAAAGATGGTATATAAGCTACTGCCAGGACCT AATAAAATGCTGCCCAAAGTGTTTTTTGCAAAAAGTAATATTGGTTATTATCAGCCATCGGCACAATTAT TAGAAAACTATGAAAAAGGCACACACAAAAAAGGCAGTAATTTTAGTTTAACAGACTGTCATCATTTGAT TGATTTTTTTAAATCCAGCATTGCCAAGCATCCAGAGTGGAAAGAGTTTGGTTTTAGATTTTCTGACACT CACACTTATCAGGATTTAAGTGATTTTTATAAAGAGATAGAGCCGCAATCTTATAAAGTTAAGTTTATTG ATATTGATGCTGATTATATTGATGATTTGGTTGAAAAAGGTCAATTATATCTGTTTCAATTATACAATAA AGATTTTTCAAAGCAATCTTATGGTAAACCAAATCTGCACACCTTATATTTTAAGTCATTGTTTAGTGAT GATAATCTCAAAAATCCGATTTATAAACTCAATGGCGAAGCTGAGATATTTTATCGCCGTGCTTCATTGA GTGTGTCTGATACGACCATTCATCAAGCAGGAGAAATATTAACACCCAAAAATCCCAATAATACCCATAA TCGCACATTAAGTTATGATGTGATTAAAAATAAACGCTATACAACAGATAAGTTTTTTCTGCACATACCG ATTACCATGAACTTTGGTATAGAAAATACAGGATTTAAAGCATTTAATCATCAAGTCAATACCACTTTAA AAAACGCTGATAAAAAAGATGTGCATATCATCGGTATTGACCGTGGAGAAAGACATTTGTTGTATGTCAG CGTGATTGATGGCGATGGTCGTATTGTGGAGCAGCGAACGTTAAATGATATTGTATCCATTTCTAATAAT GGCATGAGCATGAGTACGCCGTATCATCAGATATTGGATAACAGAGAAAAAGAGCGTTTGGCGGCTCGCA CCGATTGGGGGGATATTAAAAATATCAAAGAATTAAAGGCAGGGTATTTAAGTCATGTGGTGCATGAAGT GGTGCAGATGATGTTAAAATATAATGCCATGATTGTTTTGGAAGATTTAAATTTTGGTTTTAAACATGGT CGCTTTAAGGTGGAAAAGCAAGTTTATCAAAATTTTGAAAATGCATTGATTAAAAAATTAAATTATTTGG TATTAAAAAACGCTGATAATCACCAGCTAGGTTCTGTGCGTAAGGCTTTGCAATTAACCAATAATTTTAC CGACATAAAAAGTATTGGCAAACAAACAGGGTTTATTTTTTATGTGCCAGCATGGAATACCAGTAAAATA GACCCAACCACAGGTTTTGTGGATTTGTTAAAACCCCGTTATGAAAATATGGCACAGGCTCAAAGTTTTA TCAGCAGGTTTAAAAAGATTGCTTATAATCATCAGCTTGATTATTTTGAATTTGAGTTTGATTATGCCGA TTTTTATCAAAAAACGATAGATAAAAAACGTATTTGGACTTTATGCACTTATGGTGATGTGCGTTATTAT TATGACCATAAAACTAAAGAAACAAAGACCGTTAATATTACCAAAGAGTTAAAATCATTGTTGGATAAGC ATGATTTAAGTTATCAAAATGGTCATAATTTGGTAGATGAGCTGGCAAATTCTCACGACAAGTCATTATT AAGTGGCGTGATGTATTTATTAAAAGTTTTGTTGGCATTAAGATATAGTCATGCTCAAAAAAATGAAGAT TTTATTTTATCCCCTGTGATGAATAAAGATGGTGTGTTTTTTGACAGTAGATTTGCTGATGATGTGTTGC CAAATAATGCTGATGCAAATGGTGCTTATCATATTGCTTTAAAGGGATTATGGGTGCTCAATCAAATCCA ATCTGCCGATAATATGGATAAGATTGATTTGAGCATCTCTAATGAGCAGTGGCTACACTTTACACAAAGC CGCTAA SEQ ID NO: 96 ART24_Optimized1 ATGAACACGTCACTTTTCAGCAGTTTTACTCGTCAGTATCCTGTTACTAAAACGTTGCGCTTTGAGCTGAAACCCA TGGGAGCCACTCTTGGCCACATTCAACAGAAAGGATTTCTGCACAAGGACGAAGAGCTGGCTAAGATTTACAAGAA AATTAAGGAATTGCTGGATGAATATCACCGTGCATTCATTGCCGACACCTTAGGGGATGCGCAGTTAGTAGGATTG GACGACTTTTATGCCGATTACCAGGCACTTAAACAAGATTCGAAGAATTCTCACCTTAAAGACAAGCTGACGAAGA CTCAGGATAACCTGCGTAAACAAATCACGAAAAATTTTGAAAAGACACCACAATTGAAGGAACGCTACAAACGTTT GTTCACCAAGGAGCTTTTCAAAGCAGGAAAAGATAAGGGTGACCTTGAGAAATGGTTGATCAACCATGATTCGGAA CCGAATAAGGCCGAGAAAATTTCCTGGATTCATCAGTTTGAGAATTTCACTACGTACTTTCAAGGTTTCTACGAAA ATCGTAAGAATATGTATTCCGATGAGGTCAAGCACACGGCTATCGCCTACCGTTTGATCCACGAAAACTTGCCGCG TTTCGTTGACAACATCCAGGTCCTTAGCAAGATTAAATCAGACTATCCCGATCTTTACCATGAATTGAACCATCTG GATTCTCGCACTATTGACTTTGCAGATTTTAAGTTCGACGACATGCTTCAGATGGATTTTTACCACCACTTGCTTA TCCAGTCTGGGATTACGGCGTACAACACTTTATTGGGCGGAAAGGTATTAGAAGGAGGAAAAAAGCTGCAAGGTAT TAATGAACTTATTAATCTGTATGGGCAGAAGCATAAGATCAAGATTGCTAAGCTGAAGCCGCTGCATAAACAGATT TTGAGCGATGGACAGTCCGTAAGTTTTCTTCCGAAGAAGTTCGATAACGATTATGAATTGTGTCAGACTGTGAACC ACTTCTATCGCGAGTATGTAGCTATCTTTGACGAATTAGTGGTCTTGTTTCAAAAATTTTATGACTATGATAAGGA CAACATTTACATCAACCATCAGCAGTTAAACCAATTAAGTCATGAACTTTTCGCAGATTTTCGTCTGTTGTCCCGC GCATTAGACTTTTATTACTGTCAAATCATTGACGGCGATTTCAATAACAAAATCAATAACGCTAAGTCTCAGAACG CGAAGGAAAAGCTGCTTAAAGAGAAAGAGCGTTATACCAAATCAAATCACTCCATTAATGAGTTGCAAAAGGCTAT CAATCATTACGCATCTCACCACGAGGACACTGAGGTAAAGGTTATTTCAGACTATTTCTCCGCTACGAACATTCGT AACATGATCGACGGTATTCACCACCATTTTTCGACTATCAAGGGCTTCTTGGAAAAGGATAATAACCAAGGCGAAA GCTACCTTCCCAAGCAGAAAAATAGTAATGATGTGAAAAATTTGAAGCTGTTTCTTGACGGGGTATTACGCTTAAT TCACTTTATTAAACCCTTGGCCTTAAAATCAGACGACACTCTGGAAAAAGAAGAACATTTTTATGGGGAATTTATG CCCCTGTATGACAAATTAGTCATGTTTACGCTTTTATACAATAAGGTACGTGATTATATTAGTCAAAAGCCATACA ATGATGAAAAAATTAAGCTGAACTTTGGGAATAGCACTCTGCTGAACGGCTGGGACGTCAATAAGGAAAAAGATAA TTTCGGGGTAATTTTATGCAAGGAGGGTCTGTATTATCTGGCCATCTTAGATAAATCCCACAAAAAGGTGTTTGAT AACGCTCCGAAGGCGACCTCCTCTCATACCTATCAGAAAATGGTTTACAAGCTTCTGCCCGGACCGAACAAGATGT TACCGAAGGTCTTCTTCGCTAAATCCAACATTGGTTACTATCAACCTTCTGCTCAGCTGCTTGAAAACTACGAAAA AGGCACCCATAAGAAGGGTTCGAACTTCAGCTTAACCGACTGCCACCACTTAATCGACTTTTTCAAATCGAGTATC GCCAAACACCCAGAATGGAAGGAATTTGGATTCCGCTTTTCGGACACCCACACATACCAAGACCTTTCCGACTTTT ACAAGGAGATTGAACCCCAATCTTACAAAGTTAAGTTCATTGATATCGACGCAGACTACATCGATGATCTTGTGGA AAAGGGTCAATTATACCTGTTTCAGTTGTACAATAAAGACTTCTCCAAACAATCTTACGGAAAGCCAAACTTACAC ACGTTATACTTTAAGTCACTTTTCTCCGATGATAATCTGAAGAACCCAATCTACAAATTGAATGGAGAGGCTGAAA TTTTCTATCGTCGTGCTTCCTTAAGTGTGTCTGATACAACTATCCATCAGGCGGGAGAGATTTTAACACCTAAAAA CCCCAACAATACACACAATCGCACCTTATCCTACGATGTTATTAAAAATAAGCGTTATACGACTGACAAGTTTTTC TTGCACATTCCCATCACTATGAATTTCGGCATCGAGAATACTGGCTTTAAGGCCTTCAATCACCAAGTTAACACAA CACTGAAAAATGCCGACAAAAAAGATGTGCACATCATTGGAATTGACCGTGGAGAACGCCACCTGCTGTATGTTTC TGTCATTGACGGGGACGGACGCATTGTGGAACAACGTACCCTGAATGACATTGTTTCAATTTCTAATAACGGGATG AGCATGAGTACCCCCTATCACCAGATCTTAGACAACCGCGAAAAAGAACGCTTAGCAGCACGTACTGATTGGGGCG ACATCAAGAACATTAAGGAGCTTAAAGCTGGTTACCTTTCACATGTGGTACATGAGGTGGTTCAAATGATGCTTAA GTATAATGCGATGATTGTGCTGGAGGATTTAAATTTTGGATTTAAACATGGTCGCTTCAAGGTGGAAAAACAAGTG TATCAGAATTTCGAGAATGCACTGATTAAGAAACTTAATTATTTAGTCCTTAAAAACGCCGACAATCATCAACTGG GAAGTGTCCGCAAAGCCTTACAACTGACCAATAATTTTACGGACATTAAGAGCATCGGCAAGCAGACCGGTTTTAT TTTCTATGTTCCTGCCTGGAATACATCCAAGATTGATCCGACCACTGGCTTCGTGGACCTGCTTAAGCCTCGCTAC GAGAACATGGCACAGGCACAGTCTTTTATCTCGCGCTTCAAGAAGATCGCCTATAATCATCAACTGGACTATTTTG AATTTGAGTTTGACTACGCTGATTTCTACCAGAAGACGATCGATAAGAAACGTATTTGGACACTGTGCACATATGG TGATGTACGTTATTATTACGATCATAAGACTAAGGAGACTAAGACGGTGAACATCACGAAAGAACTTAAATCGCTG CTGGATAAACACGATTTGTCTTACCAGAACGGGCATAACTTAGTCGATGAATTGGCTAACTCCCATGACAAGTCTC TGTTGAGTGGCGTTATGTACTTGCTTAAAGTTTTATTAGCACTTCGTTACAGTCATGCCCAAAAGAACGAGGACTT CATTTTATCCCCGGTAATGAACAAGGATGGCGTGTTCTTCGACTCACGTTTTGCGGATGACGTCCTGCCGAACAAC GCTGATGCCAACGGTGCGTATCATATCGCCTTAAAGGGGTTGTGGGTGTTGAACCAAATCCAATCCGCTGATAATA TGGATAAAATCGATCTGTCGATTTCCAACGAGCAATGGCTGCATTTTACGCAGTCGCGCTAA SEQ ID NO: 97 ART24_Optimized2 ATGAATACTAGCCTGTTCAGCTCATTCACTCGCCAATACCCCGTTACGAAAACTTTACGTTTTGAATTGAAGCCAA TGGGAGCTACTTTAGGACATATCCAGCAGAAGGGATTCTTACATAAGGATGAAGAATTGGCAAAAATTTATAAAAA AATCAAGGAGCTGTTGGATGAGTACCATCGCGCCTTCATTGCGGATACCTTGGGGGACGCACAACTGGTTGGGCTT GACGATTTTTACGCCGACTACCAAGCGCTTAAACAAGATAGTAAAAATTCCCATCTTAAGGACAAGCTGACCAAAA CTCAGGACAACTTACGTAAGCAAATTACTAAGAATTTCGAGAAAACTCCTCAGCTGAAAGAGCGTTATAAACGTCT TTTCACGAAAGAATTATTTAAGGCAGGGAAAGATAAAGGGGATTTGGAGAAGTGGTTAATCAACCATGATAGCGAA CCTAACAAGGCTGAAAAGATTTCGTGGATCCATCAATTCGAAAATTTCACCACATATTTCCAGGGTTTCTACGAGA ATCGCAAGAATATGTACTCCGATGAAGTGAAGCATACTGCTATTGCTTACCGCTTGATTCACGAGAATTTGCCGCG CTTTGTTGATAACATCCAGGTGCTGTCGAAGATTAAATCCGATTATCCAGACCTGTACCACGAACTGAATCACTTA GATAGCCGCACAATCGACTTTGCTGATTTTAAATTCGATGATATGCTTCAAATGGACTTTTACCACCACCTGTTAA TTCAGAGTGGTATCACCGCTTACAATACATTACTTGGCGGTAAAGTGTTGGAAGGGGGAAAGAAGCTGCAGGGGAT CAATGAGTTAATCAATTTATATGGTCAAAAACACAAAATCAAAATCGCTAAACTGAAACCCTTACATAAGCAGATC CTGAGTGATGGTCAATCGGTGTCATTTTTACCGAAAAAATTTGACAATGACTACGAGCTGTGCCAAACAGTGAACC ATTTCTATCGCGAATACGTGGCTATCTTTGACGAGCTTGTGGTATTGTTCCAGAAGTTTTACGATTACGATAAGGA CAATATCTATATCAACCACCAGCAGTTAAACCAATTATCCCACGAATTATTTGCTGATTTTCGTTTACTGAGTCGC GCCCTGGACTTTTACTATTGCCAGATTATTGATGGAGATTTTAACAACAAAATCAACAATGCAAAAAGCCAGAACG CGAAAGAGAAGCTTCTGAAGGAGAAAGAGCGCTACACAAAGTCAAATCATAGTATTAATGAGCTGCAGAAGGCGAT TAATCACTACGCTAGCCATCATGAAGATACAGAAGTCAAGGTAATCAGCGACTACTTCTCTGCCACAAACATTCGT AATATGATCGATGGCATCCATCACCATTTCTCCACAATCAAGGGTTTTTTGGAAAAAGATAATAATCAAGGGGAGA GCTACCTGCCGAAGCAAAAGAATTCGAACGACGTAAAAAACTTAAAACTTTTTTTAGACGGTGTTCTGCGCTTGAT CCACTTCATCAAGCCGCTTGCACTTAAATCTGATGATACGCTGGAAAAAGAAGAACACTTTTATGGCGAATTTATG CCATTATATGATAAGCTTGTCATGTTTACACTTTTGTATAACAAGGTGCGCGATTACATTTCACAAAAACCTTATA ACGACGAGAAAATTAAGTTGAATTTTGGTAATAGTACTTTACTTAACGGGTGGGATGTTAATAAAGAAAAAGATAA CTTCGGTGTAATTCTTTGCAAGGAAGGACTGTATTATTTGGCCATTTTGGACAAGTCCCATAAGAAGGTCTTCGAC AACGCGCCCAAGGCGACCTCGAGCCATACTTATCAGAAAATGGTCTACAAACTTTTGCCGGGACCCAATAAAATGC TGCCAAAAGTATTTTTTGCAAAGAGTAACATTGGATATTATCAGCCCAGCGCCCAACTTTTAGAGAATTATGAGAA AGGGACCCACAAAAAGGGCTCTAATTTCTCATTGACGGACTGCCACCATTTGATTGATTTTTTTAAAAGTAGCATT GCCAAACATCCTGAATGGAAAGAATTTGGTTTCCGCTTTTCTGACACACACACTTACCAGGACTTATCAGATTTTT ATAAGGAAATTGAACCTCAGTCTTACAAAGTGAAATTTATTGACATCGATGCTGACTACATTGATGACTTAGTTGA AAAGGGCCAATTGTATTTGTTCCAGTTATATAACAAGGACTTTTCGAAACAATCATACGGTAAGCCGAATTTGCAC ACTTTGTATTTTAAGTCCTTGTTTAGCGATGATAATCTGAAAAATCCAATCTACAAATTGAACGGGGAGGCAGAGA TTTTTTACCGTCGCGCTAGCCTGTCCGTTAGCGATACAACTATTCACCAAGCAGGAGAAATCCTTACGCCTAAGAA TCCGAATAACACGCACAATCGTACTTTAAGTTATGATGTAATCAAAAATAAACGTTATACCACAGATAAATTTTTC CTGCATATCCCGATCACAATGAATTTCGGAATCGAAAATACTGGCTTCAAAGCCTTCAACCACCAAGTGAATACCA CATTAAAGAATGCTGACAAAAAAGACGTTCACATTATCGGAATCGACCGCGGCGAGCGTCATTTACTGTATGTCAG TGTGATTGACGGGGATGGCCGTATTGTAGAGCAGCGCACTCTTAACGATATTGTGTCGATTTCCAATAACGGGATG TCTATGTCGACTCCTTATCACCAGATTTTGGATAATCGTGAAAAGGAGCGCCTTGCGGCCCGTACTGATTGGGGTG ATATCAAGAACATCAAAGAATTGAAGGCAGGGTACTTATCACATGTAGTGCATGAAGTGGTCCAGATGATGCTTAA ATACAATGCAATGATTGTATTGGAAGATTTAAATTTCGGGTTTAAGCACGGCCGTTTCAAGGTGGAAAAGCAGGTC TATCAAAACTTCGAAAATGCCTTGATTAAGAAGCTGAACTATCTTGTACTGAAAAACGCGGATAATCACCAATTGG GCTCAGTCCGTAAAGCCCTGCAGCTTACCAACAACTTTACCGATATTAAATCTATCGGCAAGCAGACCGGGTTTAT CTTTTACGTGCCTGCATGGAATACCTCCAAAATCGACCCCACCACGGGCTTTGTTGACTTATTGAAACCACGTTAT GAGAACATGGCGCAAGCGCAATCTTTTATTTCACGTTTCAAAAAAATCGCCTATAATCATCAACTTGATTACTTTG AGTTCGAATTCGATTACGCTGATTTTTACCAAAAAACAATTGATAAGAAACGCATCTGGACCTTGTGTACTTACGG TGATGTACGCTACTACTACGACCACAAAACGAAGGAAACCAAAACTGTCAACATTACTAAAGAACTGAAGAGTTTA TTGGACAAGCATGATCTTTCATACCAAAATGGCCACAATCTTGTAGACGAACTTGCTAACAGCCATGATAAAAGTT TATTAAGCGGGGTGATGTACCTTCTGAAAGTGCTTTTAGCTTTACGCTATTCACACGCCCAAAAGAATGAGGATTT CATTCTTTCACCTGTTATGAATAAGGACGGTGTTTTCTTCGACTCGCGTTTTGCAGACGACGTACTGCCAAATAAT GCTGACGCTAATGGAGCTTACCACATTGCTCTGAAAGGGCTTTGGGTTCTTAACCAAATTCAAAGTGCAGATAATA TGGATAAGATTGATCTTTCAATCAGTAATGAGCAATGGCTGCACTTCACCCAAAGCCGCTAA SEQ ID NO: 98 ART24_Optimized3 ATGAACACGTCACTGTTTTCTTCTTTCACGCGCCAATACCCTGTCACAAAGACGCTTCGCTTCGAATTAAAGCCTA TGGGGGCAACCTTAGGACACATTCAACAAAAAGGGTTTCTGCATAAAGACGAAGAATTGGCTAAGATCTATAAAAA AATTAAAGAGTTACTGGACGAATATCATCGCGCGTTCATTGCTGATACTTTGGGGGATGCGCAATTAGTCGGGTTA GACGATTTTTACGCAGATTATCAAGCGCTGAAGCAGGACTCAAAGAACTCCCACTTAAAAGATAAATTAACTAAAA CCCAAGATAACTTGCGCAAGCAAATTACGAAAAACTTCGAGAAGACACCACAATTGAAAGAACGCTATAAGCGTTT GTTCACCAAGGAATTGTTCAAGGCCGGAAAGGATAAGGGTGATCTTGAGAAGTGGTTAATCAACCACGACTCGGAA CCGAATAAAGCTGAAAAGATTTCATGGATTCACCAATTCGAGAACTTCACGACCTATTTCCAAGGATTCTACGAGA ATCGCAAAAATATGTACAGTGACGAGGTCAAACATACGGCCATTGCATATCGCCTTATTCACGAGAACCTTCCGCG CTTCGTCGACAACATCCAGGTCTTATCAAAAATTAAGTCCGATTACCCTGATCTGTATCATGAGTTGAACCACTTG GATAGTCGCACAATCGACTTCGCAGATTTCAAATTCGATGACATGCTTCAAATGGACTTCTACCATCATTTGTTAA TCCAGAGTGGGATTACCGCCTACAATACGTTATTGGGTGGAAAAGTCCTTGAGGGAGGAAAGAAGTTACAGGGAAT CAATGAATTAATCAATCTGTACGGACAGAAGCACAAGATTAAGATCGCGAAGTTGAAGCCGTTGCATAAACAAATC TTGTCCGACGGGCAGTCCGTCTCGTTTTTACCGAAAAAATTCGATAACGACTATGAGTTGTGCCAAACTGTGAATC ACTTCTATCGCGAATATGTAGCAATCTTTGATGAGCTTGTGGTATTATTCCAGAAATTTTACGACTACGACAAAGA CAATATCTATATCAACCATCAACAGTTAAACCAGCTTTCTCATGAACTTTTTGCCGATTTTCGTTTACTTTCGCGC GCCTTAGACTTCTATTACTGTCAGATTATTGATGGTGACTTCAATAATAAGATCAATAACGCTAAATCGCAGAATG CCAAAGAGAAGCTGTTAAAGGAGAAAGAGCGTTATACGAAATCAAATCACTCGATCAACGAGTTACAAAAAGCCAT TAATCATTATGCAAGCCACCACGAAGACACGGAAGTTAAAGTAATTTCAGATTATTTCTCCGCCACTAACATCCGC AACATGATCGATGGGATCCATCATCATTTCTCTACTATCAAGGGGTTTCTGGAAAAAGATAACAATCAAGGGGAAT CCTATCTGCCTAAGCAGAAGAATAGTAATGATGTAAAAAATTTAAAGCTTTTTCTGGACGGAGTCTTGCGTTTGAT TCACTTTATTAAGCCGCTGGCTCTTAAATCTGATGATACCCTTGAGAAAGAAGAGCACTTTTATGGCGAGTTCATG CCATTATATGACAAATTAGTGATGTTCACGCTTTTGTACAATAAAGTGCGCGACTACATTTCCCAGAAACCATACA ACGATGAAAAAATTAAACTGAATTTTGGTAATTCAACGCTTTTAAACGGCTGGGATGTGAATAAGGAAAAGGATAA TTTTGGTGTGATCTTGTGTAAGGAGGGGTTATACTACTTAGCGATCCTTGATAAAAGTCACAAGAAAGTGTTTGAC AACGCGCCAAAAGCTACATCTTCTCATACCTACCAGAAGATGGTCTACAAGCTGCTTCCTGGACCGAACAAAATGC TGCCCAAGGTCTTTTTTGCGAAATCCAACATCGGCTACTACCAGCCGTCTGCGCAACTTTTGGAGAACTACGAGAA AGGGACCCACAAAAAAGGGTCGAATTTCTCGCTTACCGATTGTCACCATTTGATCGACTTCTTCAAAAGTTCAATC GCGAAACACCCCGAATGGAAAGAGTTCGGCTTCCGCTTCTCCGACACACATACCTATCAGGACCTTAGCGATTTTT ATAAGGAAATTGAACCCCAAAGCTATAAAGTCAAGTTCATTGACATCGATGCGGACTACATCGACGACCTTGTAGA AAAGGGTCAGCTTTATCTGTTTCAGCTGTATAACAAAGACTTTTCGAAACAGTCCTATGGGAAGCCAAACTTGCAT ACTTTATATTTCAAATCGCTGTTTTCCGATGATAATTTGAAGAACCCTATTTATAAATTGAACGGAGAAGCCGAAA TCTTCTACCGTCGTGCGAGCTTGAGTGTCTCTGACACAACAATTCATCAAGCAGGTGAGATTTTGACGCCCAAGAA TCCTAATAATACGCACAACCGTACGTTAAGTTATGACGTGATCAAAAACAAGCGTTACACGACGGATAAATTCTTT CTGCATATCCCGATCACGATGAACTTTGGGATTGAGAACACTGGGTTTAAGGCATTCAATCATCAGGTTAATACCA CATTAAAAAACGCGGACAAGAAAGATGTACATATTATTGGTATTGATCGCGGGGAACGCCATTTGCTGTACGTTTC TGTAATTGACGGGGACGGACGCATCGTGGAACAACGCACCCTTAACGATATTGTATCTATCTCGAACAATGGTATG TCTATGTCGACACCGTATCACCAAATTCTGGATAATCGCGAAAAGGAACGCTTAGCGGCTCGCACTGATTGGGGGG ACATTAAAAATATCAAGGAGTTAAAGGCTGGCTACCTGTCCCACGTGGTGCACGAGGTAGTACAAATGATGTTAAA GTACAATGCCATGATTGTTTTAGAGGACTTGAACTTTGGGTTTAAGCATGGTCGCTTTAAGGTTGAAAAACAAGTA TACCAGAACTTCGAGAATGCTTTAATCAAGAAACTTAACTACCTTGTTCTGAAAAACGCAGATAATCATCAACTTG GCTCGGTACGTAAAGCCTTGCAATTGACCAATAACTTCACAGACATCAAGTCGATCGGGAAACAGACGGGATTTAT TTTTTACGTTCCCGCGTGGAACACCAGTAAGATTGACCCGACGACTGGTTTTGTAGACCTGCTGAAACCACGCTAT GAGAATATGGCACAAGCTCAGAGTTTTATTTCTCGCTTCAAGAAGATTGCTTATAACCATCAGCTGGATTATTTCG AGTTCGAGTTTGATTACGCGGATTTCTATCAAAAAACTATCGACAAAAAGCGCATCTGGACCTTGTGTACGTATGG TGATGTTCGTTATTACTATGACCACAAAACCAAAGAGACAAAGACTGTGAACATCACAAAAGAATTAAAATCGTTA CTTGATAAGCACGATTTGTCATATCAAAACGGGCATAACCTTGTGGATGAGTTGGCAAATTCACATGATAAATCCT TATTATCAGGGGTGATGTATTTACTTAAGGTTTTACTGGCTTTACGTTATAGCCACGCACAAAAGAATGAGGACTT CATCTTGAGTCCCGTAATGAACAAGGACGGTGTATTTTTCGACTCTCGCTTCGCCGACGACGTTCTTCCGAATAAT GCTGACGCCAACGGAGCATACCATATCGCGTTAAAGGGGTTGTGGGTATTGAATCAGATCCAGTCGGCTGACAATA TGGATAAAATTGATCTTTCAATCTCCAATGAACAATGGCTGCACTTTACCCAGTCACGCTAA SEQ ID NO: 99 ART25_WT ATGGTAGGTAATAAAATATCAAATTCGTTTGATTCGTTTACTGGAATCAACGCATTAAGTAAAACGTTAA GAAATGAGTTAATTCCATCAGATTATACTAAGAGACATATTGCTGAGAGTGATTTTATTGCGGCTGATAC AAACAAAAATGAAGATCAGTATGTAGCAAAAGAAATGATGGATGATTATTATCGCGATTTTATAAGTAAG GTTCTAGATAATTTACATGATATAGAATGGAAAAATTTGTTTGAATTAATGCATAAAGCGAAAATAGATA AAAGTGATGCAACTTCAAAAGAGTTGATAAAAATTCAGGATATGCTTCGTAAAAAAATAGGAAAAAAATT CTCTCAAGATCCTGAATATAAAGTCATGCTCAGTGCTGGTATGATAACAAAGATTTTACCAAAATATATA TTGGAGAAATATGAAACTGATAGAGAAGACAGATTAGAAGCAATAAAAAGATTTTACGGATTCACAGTTT ATTTTAAAGAATTTTGGGCAAGTAGACAAAATGTATTTTCTGATAAGGCAATAGCGTCATCTATATCATA TAGAATCATACACGAGAATGCCAAAATATATATGGATAACCTGGATGCTTATAATAGAATAAAACAGATT GCTTGTGAAGAAATTGAGAAGATTGAAGAAGAGGCATATGATTTTCTGCAAGGTGACCAGTTAGATGTGG TATATACCGAAGAAGCATATGGACGATTTATATCCCAGAGTGGAATAGATTTATATAATAATATATGTGG GGTTATTAATGCTCATATGAATTTATATTGCCAGAGCAAAAAATGCTCCAGATCAAAGTTTAAAATGCAA AAATTACATAAACAGATTTTATGTAAAGCAGAAACCGGGTTTGAAATTCCATTAGGCTTTCAAGATGATG CGCAAGTGATAAATGCGATTAATTCATTTAATGCTCTAATAAAAGAAAAAAATATTATATCACGTCTCAG AACTATAGGGAAAAGCATATCTTTATATGACGTAAATAAGATATATATTTCATCTAAAGCGTTCGAGAAT GTCTCTGTATACATTGATCATAAATGGGATGTGATAGCTTCAAGCTTGTATAAGTATTTCTCGGAAATTG TCAAAGGAAATAAAGACAACAGGGAAGAAAAGATTCAGAAGGAAATTAAGAAAGTAAAGAGCTGTAGTCT GGGTGATTTGCAGAGACTGGTTAATTCATATTATAAAATAGATAGCACATGTTTGGAGCATGAAGTAACT GAATTTGTTACTAAAATAATAGATGAGATAGATAACTTTCAAATTACGGATTTTAAATTTAACGACAAAA TTAGCTTGATTCAAAATGAACAGATTGTCATGGATATAAAAACATATCTTGATAAATATATGAGTATTTA TCATTGGATGAAATCGTTTGTGATTGATGAGCTAGTTGATAAGGATATGGAGTTTTATTCAGAACTTGAT GAACTTAATGAGGATATGTCGGAAATTGTGAATTTATATAACAAAGTGCGTAACTATGTTACACAGAAGC CTTATAGTCAGGAAAAGATAAAATTGAACTTCGGATCACCGACTCTTGCCGATGGATGGTCGAAATCAAA GGAATTTGATAACAATGCTATTATATTGATTCGTGATGAAAAAATATATTTGGCAATATTTAACCCAAGA AATAAACCAGCTAAGACTGTTATATCAGGACACGATGTTTGCAATTCTGAAACAGATTATAAGAAAATGA ATTATTATTTGCTCCCTGGGGCAAGTAAGACTTTACCACATGTGTTTATTAAGTCTAGATTGTGGAATGA ATCACATGGAATACCTGATGAAATATTGCGGGGATATGAGTTGGGTAAACACTTGAAATCATCGGTAAAT TTTGATGTAGAATTCTGCTGGAAGCTAATTGATTATTATAAAGAATGTATAAGCTGTTATCCAAATTATA AGGCGTATAATTTTAAATTTGCTGATACAGAATCGTACAATGATATATCAGAATTCTATAGAGAAGTGGA GTGTCAGGGATATAAGATTGACTGGACATATATAAGTTCAGAAGATGTAGAACAACTTGATCGTGATGGT CAAATATATCTGTTTCAAATCTATAATAAAGACTTTGCACCGAATAGTAAAGGAATGGATAATCTTCATA CGAAGTACCTCAAAAATATATTTAGCGAAGACAATCTTAAAAACATAGTTATAAAATTGAACGGAGAGGC AGAATTATTTTATAGAAAATCAAGTGTCAAGAAAAAAGTAGAACATAAAAAGGGTACGATTTTAGTCAAT AAAACATATAAGGTTGAGGATAACACTGAAAACAGTAAAGAAAAAAGAGTTATTATTGAATCAGTACCAG ATGATTGCTATATGGAACTTGTTGATTATTGGAGAAATGGTGGTATCGGAATTCTTTCAGACAAAGCTGT TCAATATAAGGACAAAGTATCTCATTATGAAGCTACTATGGATATAGTCAAGGATCGCAGGTATACAGTA GATAAGTTTTTTATACATTTGCCTATAACTATCAATTTCAAAGCAGATGGAAGAATTAATATAAATGAAA AGGTACTCAAGTATATAGCGGAAAATGATGAGCTTCATGTGATTGGAATTGATAGAGGAGAAAGAAATCT CCTTTATGTGTCAGTAATTAATAAAAAGGGAAAGATTGTTGAGCAGAAGTCTTTCAATATGATAGAAAGC TATGAAACTGTAACAAATATAGTTAGAAGATATAATTATAAAGACAAACTGGTCAACAAAGAAAGTGCCC GGACAGATGCGAGAAAAAATTGGAAAGAAATTGGAAAGATAAAAGAAATAAAAGAGGGATACTTGTCACA GGTAATTCATGAAATATCGAAGATGGTGTTGAAATATAATGCAATCATTGTTATGGAAGATCTAAATTAT GGATTTAAACGAGGTAGGTTTAGGGTTGAACGTCAGGTATACCAGAAATTTGAGAATATGTTGATATCTA AACTGGCATACTTGGTAGATAAAAGTCGAAAAGCCGATGAACCAGGAGGTGTACTAAGAGGGTATCAGCT TACGTATATTCCAGATTCTTTAGAGAAACTTGGTAGCCAGTGTGGAATCATATTCTATGTACCTGCTGCG TATACATCTAAGATTGATCCGTTAACAGGCTTTGTAAATGTATTCAATTTTAGAGAATATTCTAATTTTG AAACAAAATTGGATTTTGTTAGATCATTAGACAGTATACGATATGATACAGAGAAGAAATTGTTTTCAAT ATCATTTGATTATGACAACTTTAAAACACATAATACCACTCTGGCAAAAACGAAGTGGGTTATATATTTA CGAGGCGAGCGTATAAAAAAGGAACATACATCTTACGGGTGGAAGGATGATGTTTGGAATGTGGAAAGTA GAATTAAAGACTTGTTTGACAGTTCACATATGAAATACGATGATGGACATAATTTAATTGAAGATATTCT TGAATTAGAATCGAGTGTACAGAAGAAGCTGATCAATGAATTGATAGAAATAATAAGGTTGACTGTTCAA CTTCGTAACAGTAAGTCAGAGAGATACGATAGGACAGAAGCTGAATACGACAGAATAGTATCGCCAGTTA TGGATGAAAATGGACGGTTTTATGATTCGGAAAATTATATTTTCAATGAAGAAACAGAGTTACCAAAGGA TGCAGATGCTAATGGTGCATATTGCATTGCATTAAAAGGTCTGTACAATGTCATAGCCATAAAGAATAAC TGGAAAGAAGGAGAGAAATTCAACAGAAAATTGTTAAGTCTAAATAATTATAACTGGTTCGATTTTATAC AAAATAGAAGGTTTTAA SEQ ID NO; 100 ART25_Optimized1 ATGGTAGGCAACAAGATCTCAAACAGTTTTGACAGCTTTACAGGCATCAACGCGTTGAGCAAGACCCTTCGCAATG AATTAATCCCATCTGATTACACTAAACGCCACATTGCAGAAAGTGACTTTATTGCTGCCGATACTAATAAAAATGA AGATCAATACGTTGCTAAGGAGATGATGGATGACTATTACCGCGATTTTATTTCTAAAGTATTGGATAACTTACAC GACATTGAGTGGAAAAATTTGTTTGAATTGATGCACAAGGCCAAAATTGATAAGAGCGATGCTACTTCAAAAGAGT TGATTAAAATCCAAGATATGTTGCGTAAGAAGATTGGTAAGAAGTTCTCGCAGGACCCTGAGTACAAAGTGATGTT ATCGGCTGGCATGATTACAAAGATTCTTCCTAAGTATATCCTGGAGAAATACGAAACGGACCGTGAGGATCGCTTG GAAGCAATCAAACGCTTCTACGGGTTCACCGTGTATTTTAAGGAGTTCTGGGCGAGTCGCCAAAATGTCTTCTCTG ACAAGGCAATCGCATCATCTATCAGCTACCGCATCATTCACGAAAATGCCAAAATTTACATGGACAATTTGGATGC ATACAATCGTATCAAACAAATTGCCTGCGAGGAAATTGAGAAGATTGAAGAAGAGGCATATGACTTTCTGCAAGGA GACCAACTTGACGTGGTGTATACTGAGGAGGCGTATGGTCGTTTTATTAGTCAAAGTGGTATTGATTTGTATAACA ATATTTGCGGCGTAATCAATGCTCATATGAACTTGTACTGCCAAAGCAAGAAATGTTCGCGCAGTAAATTTAAGAT GCAAAAGTTACATAAGCAAATTTTGTGCAAGGCGGAAACCGGTTTTGAAATTCCCCTGGGATTTCAGGACGATGCT CAGGTCATTAATGCGATCAATTCGTTTAATGCGTTAATCAAGGAAAAAAATATCATCTCCCGCCTTCGTACAATTG GTAAATCGATTAGCCTGTACGATGTTAATAAAATTTACATTTCCTCGAAAGCATTTGAAAATGTTTCCGTCTATAT TGACCACAAATGGGATGTGATTGCTAGTTCTTTGTACAAATACTTTTCGGAAATTGTGAAGGGGAACAAGGACAAC CGCGAAGAAAAAATTCAGAAGGAGATCAAGAAGGTAAAGAGTTGCAGCCTGGGGGATTTGCAGCGCTTGGTTAATT CCTACTACAAGATTGATTCCACTTGCCTTGAGCACGAGGTCACGGAATTCGTCACCAAAATCATCGACGAGATCGA CAATTTCCAGATCACAGACTTTAAGTTTAATGACAAAATTTCGCTGATTCAGAATGAACAGATTGTGATGGATATT AAGACGTATCTTGATAAGTACATGTCAATCTATCATTGGATGAAATCCTTCGTTATCGATGAGCTGGTAGATAAAG ATATGGAGTTTTATTCAGAGTTGGACGAACTGAACGAGGACATGTCAGAAATCGTCAATTTGTATAATAAGGTTCG TAATTATGTTACGCAAAAGCCCTACTCGCAAGAGAAGATTAAATTAAATTTCGGATCGCCCACCTTGGCTGACGGA TGGTCGAAAAGTAAAGAATTCGACAATAATGCTATTATTTTGATTCGCGATGAAAAGATTTATCTTGCGATCTTTA ACCCTCGTAATAAGCCGGCGAAGACAGTTATTAGTGGCCATGACGTGTGTAACTCTGAGACGGATTACAAGAAGAT GAACTATTATTTATTACCGGGGGCATCTAAGACCTTACCGCATGTCTTCATCAAATCGCGTCTGTGGAATGAAAGT CACGGTATCCCAGATGAAATCCTTCGTGGCTATGAATTAGGGAAACACTTAAAGTCGTCCGTTAACTTTGATGTCG AGTTTTGTTGGAAGCTTATTGACTACTACAAGGAGTGTATCTCGTGCTATCCTAACTATAAAGCGTACAACTTCAA GTTCGCAGACACCGAATCCTACAACGATATCAGCGAGTTCTATCGTGAAGTAGAGTGCCAAGGATACAAAATTGAC TGGACGTACATTTCTTCCGAGGATGTTGAACAGTTAGATCGTGACGGGCAAATTTATTTATTCCAAATTTATAACA AAGACTTCGCTCCCAATTCTAAAGGTATGGACAACCTGCACACCAAGTACTTGAAAAATATTTTTTCAGAGGATAA CTTGAAGAACATTGTTATTAAACTGAACGGTGAAGCCGAATTATTCTATCGCAAATCGAGTGTTAAGAAAAAGGTA GAGCACAAGAAGGGGACCATCTTGGTAAACAAGACATATAAAGTTGAAGATAACACTGAGAACTCGAAGGAGAAGC GCGTGATTATTGAGTCTGTCCCTGATGATTGCTATATGGAACTGGTGGACTACTGGCGTAACGGCGGCATCGGTAT TTTGAGTGATAAGGCTGTTCAGTATAAGGATAAGGTTAGCCATTATGAAGCAACTATGGATATCGTCAAAGACCGC CGTTATACAGTTGATAAATTCTTTATTCATCTGCCTATTACTATCAACTTCAAGGCGGATGGTCGCATCAATATTA ACGAAAAGGTGTTAAAGTATATCGCCGAAAACGATGAGTTGCACGTAATTGGGATTGACCGCGGCGAACGCAACCT GCTGTATGTGTCCGTGATTAACAAAAAGGGGAAAATCGTAGAACAGAAGAGCTTTAATATGATCGAATCGTACGAA ACTGTCACAAATATTGTGCGCCGCTATAATTACAAGGACAAACTTGTGAATAAGGAATCCGCCCGTACAGACGCAC GCAAGAATTGGAAAGAAATTGGAAAGATCAAGGAAATTAAGGAGGGATACTTGAGTCAGGTGATTCATGAGATCAG CAAAATGGTCCTTAAGTACAACGCCATCATCGTAATGGAAGACTTGAACTACGGATTTAAGCGCGGGCGCTTTCGT GTTGAACGCCAGGTATATCAAAAATTTGAGAATATGTTGATCTCTAAACTTGCTTATCTTGTCGATAAGAGTCGCA AGGCTGACGAACCAGGTGGGGTCCTGCGCGGATACCAACTGACCTATATCCCGGACTCTCTGGAAAAGTTAGGAAG TCAGTGCGGCATTATCTTTTACGTTCCTGCAGCTTATACGAGTAAAATTGATCCACTGACTGGGTTCGTAAATGTC TTTAACTTCCGTGAATATTCAAATTTTGAAACGAAACTGGATTTTGTCCGCTCCTTGGATTCTATCCGCTACGACA CAGAGAAAAAGTTGTTTTCAATTAGTTTTGATTACGACAACTTTAAAACTCATAACACTACCTTAGCCAAGACAAA ATGGGTTATCTACCTTCGTGGCGAACGCATTAAAAAGGAACATACCTCCTATGGGTGGAAGGACGACGTTTGGAAC GTGGAAAGCCGTATTAAAGATCTGTTTGATAGCTCTCACATGAAGTACGACGACGGGCATAACCTTATTGAGGATA TCTTGGAACTGGAGTCGTCCGTACAAAAGAAGCTGATTAACGAGCTGATTGAAATTATTCGCCTTACGGTTCAATT ACGCAACTCTAAATCGGAGCGTTACGATCGTACCGAGGCAGAGTATGATCGTATCGTGAGTCCTGTTATGGATGAG AATGGCCGTTTTTATGATTCTGAAAACTACATCTTTAATGAAGAGACTGAGCTTCCCAAGGACGCAGATGCTAACG GCGCCTATTGCATCGCTTTAAAGGGTTTGTACAATGTTATTGCTATTAAGAACAATTGGAAGGAAGGAGAAAAATT CAACCGCAAACTGCTTTCTTTGAACAACTACAATTGGTTTGATTTTATTCAGAATCGTCGTTTTTAA SEQ ID NO: 101 ART25_Optimized2 ATGGTGGGTAACAAGATCAGCAATTCCTTTGACAGTTTCACTGGAATCAACGCCCTTTCCAAAACACTGCGTAACG AATTGATCCCGTCGGACTACACCAAGCGTCATATTGCTGAATCGGATTTTATCGCTGCAGACACCAATAAGAATGA AGACCAGTATGTTGCAAAAGAGATGATGGATGATTATTACCGCGATTTCATTTCTAAAGTCTTAGATAATCTTCAT GATATTGAATGGAAGAACCTGTTCGAATTAATGCACAAAGCCAAAATCGACAAATCCGACGCAACCAGTAAAGAAC TGATCAAGATCCAAGATATGTTACGCAAGAAGATTGGAAAGAAATTTTCTCAAGACCCAGAGTACAAAGTGATGTT GTCCGCTGGGATGATCACTAAGATCTTGCCTAAATACATCCTGGAAAAGTATGAGACCGACCGCGAGGACCGTCTT GAAGCAATCAAGCGCTTTTATGGTTTCACCGTCTACTTCAAGGAATTTTGGGCGAGTCGTCAAAACGTATTTAGCG ATAAGGCTATTGCCTCATCTATTTCTTATCGCATCATTCATGAGAATGCCAAGATCTATATGGACAACCTTGATGC ATATAACCGTATCAAACAAATCGCATGTGAGGAGATTGAGAAGATCGAAGAGGAAGCCTACGATTTCTTGCAAGGA GACCAACTTGATGTAGTTTACACCGAGGAGGCATATGGACGCTTTATTAGTCAGAGCGGTATTGACCTGTACAATA ATATCTGTGGTGTTATCAATGCGCATATGAATTTGTATTGCCAGTCTAAAAAGTGTTCGCGCTCGAAATTTAAAAT GCAAAAGTTACATAAGCAAATTTTGTGCAAGGCCGAGACGGGTTTCGAGATTCCGTTAGGGTTTCAGGACGACGCC CAAGTGATTAACGCCATCAATTCGTTCAACGCTTTGATTAAAGAAAAAAATATCATCTCGCGCTTGCGCACGATTG GGAAGTCTATCTCTTTATACGACGTAAATAAGATCTATATCTCTTCTAAAGCTTTTGAAAACGTGTCCGTTTACAT TGATCACAAATGGGATGTAATTGCTAGTTCCCTTTACAAGTACTTCTCCGAAATCGTTAAAGGTAACAAAGACAAC CGTGAAGAAAAAATCCAAAAAGAGATTAAGAAAGTTAAGTCATGTTCCTTAGGCGACCTGCAACGCTTAGTGAACA GTTATTACAAAATTGATTCTACATGTTTAGAGCACGAGGTCACAGAATTCGTTACAAAGATTATTGATGAGATTGA CAACTTTCAAATTACAGACTTTAAGTTTAATGACAAGATTTCTTTAATCCAGAACGAACAGATCGTTATGGACATC AAGACTTATCTTGATAAATATATGTCGATTTATCATTGGATGAAAAGTTTTGTTATTGACGAGCTGGTGGATAAGG ATATGGAATTTTATTCTGAGCTTGACGAACTGAATGAGGATATGTCGGAAATCGTCAATTTATACAATAAAGTTCG CAATTATGTAACCCAGAAACCCTACTCCCAAGAGAAAATCAAACTTAACTTCGGCAGCCCCACGCTGGCGGACGGG TGGAGTAAATCAAAAGAGTTTGACAACAATGCGATCATCCTTATCCGTGACGAAAAAATTTACCTTGCGATTTTCA ACCCTCGCAATAAGCCCGCCAAAACCGTGATCAGTGGTCATGATGTCTGTAATTCTGAGACTGATTATAAAAAAAT GAATTACTATCTGCTGCCTGGTGCAAGCAAAACGCTGCCGCACGTCTTCATTAAGTCCCGCTTATGGAACGAGTCG CATGGTATTCCTGATGAAATCTTACGCGGGTACGAACTGGGCAAACATCTTAAAAGCAGCGTTAATTTCGATGTAG AGTTCTGTTGGAAGCTGATCGACTACTATAAGGAATGCATTTCGTGTTACCCCAACTACAAGGCGTACAACTTTAA GTTCGCGGACACAGAAAGTTATAACGATATTAGCGAGTTTTACCGCGAAGTTGAGTGCCAGGGATATAAGATTGAC TGGACTTATATTAGTAGCGAAGACGTTGAGCAACTGGACCGTGATGGGCAAATCTACTTGTTTCAGATTTACAACA AGGACTTCGCTCCCAACTCGAAAGGTATGGACAACCTGCACACGAAATACCTTAAAAATATTTTTTCCGAAGATAA CTTAAAGAATATTGTCATTAAACTGAATGGCGAAGCTGAGTTATTTTACCGTAAGTCATCCGTCAAAAAGAAGGTC GAACATAAAAAGGGAACAATCCTTGTAAATAAGACGTATAAGGTTGAGGACAATACCGAGAATTCGAAGGAAAAGC GTGTGATCATTGAATCGGTGCCGGACGATTGCTACATGGAATTAGTGGACTACTGGCGTAACGGTGGCATCGGCAT CCTGTCAGACAAGGCGGTGCAGTATAAGGACAAAGTCTCGCACTATGAAGCCACCATGGACATTGTAAAGGACCGT CGCTACACGGTGGATAAGTTCTTTATCCATTTGCCTATCACGATTAATTTTAAAGCAGATGGTCGTATCAACATTA ACGAAAAGGTGTTAAAATACATTGCTGAGAATGACGAGTTACACGTTATCGGAATCGACCGTGGTGAGCGTAACCT TTTATATGTCTCAGTAATCAATAAAAAAGGGAAGATTGTTGAGCAGAAAAGCTTCAATATGATCGAATCTTACGAG ACCGTGACAAACATCGTGCGTCGTTACAACTATAAAGATAAGTTGGTAAATAAGGAGAGTGCCCGCACCGACGCAC GCAAAAACTGGAAAGAAATCGGCAAGATCAAGGAAATCAAGGAGGGGTATTTGTCACAAGTAATCCACGAAATTTC TAAAATGGTATTAAAGTACAACGCAATTATCGTCATGGAAGATTTGAACTACGGCTTCAAGCGCGGCCGTTTCCGC GTCGAGCGTCAAGTATATCAGAAATTCGAGAATATGTTAATTTCCAAGTTAGCATACTTAGTAGATAAAAGCCGCA AGGCTGATGAACCAGGTGGGGTTCTGCGCGGCTACCAATTAACGTACATTCCCGATTCCTTAGAAAAGTTGGGCTC TCAGTGCGGTATTATTTTTTACGTCCCCGCAGCATATACATCGAAGATCGATCCGCTTACCGGATTTGTCAATGTC TTTAATTTTCGCGAATACTCTAATTTCGAGACAAAGCTTGACTTCGTGCGCAGTTTGGACAGCATTCGCTATGATA CGGAGAAGAAACTTTTTTCAATCTCTTTTGACTATGATAATTTCAAGACCCACAACACAACACTGGCCAAAACCAA GTGGGTAATCTACCTGCGTGGGGAGCGTATCAAGAAGGAGCACACGTCGTATGGATGGAAGGACGACGTATGGAAT GTGGAGTCACGTATTAAGGACCTGTTTGACAGTTCCCATATGAAATATGACGACGGCCATAACCTTATCGAAGACA TTCTTGAGTTAGAGAGTAGCGTCCAAAAGAAGTTAATCAATGAACTTATCGAGATCATCCGCCTTACTGTGCAGTT GCGCAATTCCAAGTCGGAACGCTACGATCGTACAGAGGCCGAATACGATCGCATCGTCTCCCCCGTAATGGATGAA AACGGGCGCTTTTATGATTCCGAAAACTATATTTTCAACGAGGAAACGGAACTTCCAAAAGACGCGGACGCCAACG GTGCATACTGCATCGCCCTGAAGGGCCTGTATAATGTTATCGCCATTAAGAACAATTGGAAAGAAGGTGAAAAGTT CAACCGCAAATTACTGTCCCTGAACAATTACAACTGGTTCGACTTTATCCAAAATCGTCGTTTCTAA SEQ ID NO: 102 ART25_Optimized3 ATGGTTGGTAATAAAATCAGTAATTCTTTTGATTCCTTCACAGGTATTAACGCTTTGTCTAAGACTCTGCGCAACG AGCTTATTCCGAGTGATTATACAAAACGTCATATTGCGGAAAGTGACTTCATTGCTGCGGATACAAACAAAAACGA AGATCAATACGTGGCAAAAGAAATGATGGACGATTACTATCGTGACTTTATCTCGAAAGTACTGGACAATTTGCAC GATATTGAGTGGAAAAATCTGTTCGAACTGATGCATAAAGCGAAAATTGACAAGTCTGACGCCACATCGAAAGAAC TGATCAAGATTCAGGACATGCTTCGCAAAAAGATTGGCAAAAAATTTAGTCAAGACCCGGAGTACAAAGTGATGTT GTCCGCGGGGATGATTACCAAGATTCTTCCCAAATACATTTTGGAAAAATACGAGACCGACCGCGAGGACCGTCTT GAAGCAATTAAACGTTTCTACGGCTTTACTGTTTACTTCAAGGAGTTTTGGGCGAGCCGTCAAAATGTGTTCTCAG ACAAAGCTATTGCCTCGTCGATTAGTTATCGCATTATTCATGAAAATGCAAAGATCTACATGGACAACTTAGATGC CTACAATCGCATTAAACAAATCGCTTGCGAAGAGATTGAAAAGATTGAGGAAGAAGCATATGACTTCCTTCAGGGC GATCAGCTTGACGTCGTGTACACTGAGGAGGCATATGGACGCTTCATCAGCCAGTCTGGGATTGATCTGTACAATA ATATCTGTGGTGTCATCAATGCTCATATGAACTTGTACTGCCAGTCGAAGAAATGTAGTCGCTCTAAATTCAAAAT GCAAAAACTGCACAAGCAGATTCTGTGTAAGGCAGAAACCGGGTTCGAAATCCCGCTGGGTTTTCAAGATGACGCT CAGGTTATTAACGCGATTAATTCGTTCAACGCACTTATTAAAGAAAAAAATATTATCAGTCGCCTGCGCACTATTG GCAAATCTATCAGTTTGTACGACGTAAATAAGATTTACATCAGCTCTAAAGCGTTCGAAAACGTGTCCGTATATAT TGACCACAAATGGGACGTGATTGCGTCCTCGTTATACAAATATTTTTCGGAAATCGTCAAAGGGAACAAGGACAAC CGTGAAGAGAAGATCCAGAAGGAGATTAAGAAAGTTAAAAGTTGTTCCTTGGGGGACTTACAGCGTTTAGTGAACT CTTATTATAAAATTGATTCCACGTGCCTGGAGCACGAAGTAACCGAATTCGTGACGAAGATCATTGATGAAATTGA TAACTTCCAGATCACCGACTTTAAGTTTAACGACAAGATCTCTCTGATTCAAAACGAGCAGATTGTGATGGATATC AAGACCTATTTAGACAAGTATATGTCGATCTATCACTGGATGAAATCGTTCGTCATCGACGAACTGGTCGACAAGG ATATGGAGTTTTACTCAGAGTTAGATGAATTGAACGAAGACATGTCTGAGATCGTAAATCTGTATAACAAAGTACG CAACTACGTTACCCAAAAACCGTACTCGCAGGAAAAGATTAAACTGAATTTTGGAAGTCCCACACTGGCAGACGGA TGGTCTAAAAGTAAAGAATTTGATAATAACGCGATCATTCTTATTCGCGATGAAAAAATTTATTTAGCAATCTTTA ATCCACGTAATAAGCCGGCCAAGACGGTGATCTCGGGCCATGACGTTTGCAATTCGGAAACAGATTACAAAAAGAT GAATTATTACTTACTGCCTGGTGCGTCGAAGACGTTACCGCACGTCTTTATCAAGTCTCGTCTGTGGAACGAGTCC CACGGTATCCCAGACGAGATCCTGCGCGGTTATGAGCTGGGGAAACACCTGAAATCATCCGTAAATTTTGACGTCG AGTTTTGCTGGAAACTTATTGACTACTATAAAGAGTGCATCTCTTGTTATCCGAATTATAAAGCATACAACTTTAA GTTCGCTGATACAGAATCCTACAACGACATCAGCGAATTCTACCGCGAAGTTGAGTGCCAGGGGTATAAGATTGAC TGGACATATATTAGCTCAGAAGACGTTGAGCAGTTGGACCGTGATGGGCAGATCTATTTGTTCCAGATCTATAACA AAGATTTTGCGCCGAATTCAAAGGGCATGGATAATCTTCACACGAAATACCTGAAGAATATTTTCTCTGAAGATAA TTTGAAGAACATCGTGATCAAGCTTAATGGCGAAGCAGAATTATTCTACCGCAAATCCAGCGTTAAAAAGAAGGTG GAACATAAAAAAGGTACGATCCTTGTTAATAAGACTTATAAAGTTGAGGATAATACCGAGAACTCTAAAGAAAAGC GCGTTATTATTGAATCAGTCCCAGACGATTGTTATATGGAACTTGTGGACTACTGGCGTAACGGCGGGATCGGCAT TCTGTCTGACAAGGCCGTACAGTATAAAGACAAGGTCTCACACTATGAGGCCACGATGGACATTGTTAAAGACCGC CGTTACACGGTCGATAAGTTCTTTATCCATCTTCCCATCACTATCAACTTTAAAGCTGATGGCCGTATCAATATTA ATGAAAAGGTTCTGAAGTATATCGCCGAGAACGACGAGTTGCATGTGATTGGAATTGATCGCGGTGAGCGCAACCT TCTGTATGTTTCGGTGATTAATAAAAAGGGTAAGATCGTCGAGCAGAAAAGTTTTAACATGATTGAGTCTTATGAG ACAGTCACTAACATTGTCCGTCGCTATAATTATAAAGATAAACTGGTTAACAAAGAGTCAGCTCGCACGGACGCTC GTAAGAATTGGAAGGAAATCGGGAAGATTAAAGAGATTAAAGAGGGGTATTTATCGCAGGTCATTCACGAAATTTC CAAGATGGTGCTTAAGTATAACGCGATTATTGTGATGGAGGATTTGAACTATGGGTTCAAACGCGGACGCTTTCGC GTCGAACGCCAGGTCTACCAGAAGTTCGAGAATATGCTTATCAGCAAGCTGGCGTATCTTGTGGACAAGTCTCGCA AGGCAGACGAGCCCGGCGGCGTCTTACGTGGCTACCAATTGACGTACATCCCGGACAGTTTGGAGAAATTGGGATC CCAGTGCGGTATTATCTTTTACGTACCAGCGGCATACACATCAAAGATTGATCCCCTTACCGGCTTCGTGAACGTG TTCAACTTTCGTGAATATAGCAACTTCGAGACCAAACTGGATTTCGTGCGCTCCTTAGATAGCATTCGCTACGATA CCGAAAAGAAACTTTTCAGCATTAGCTTCGATTATGATAACTTCAAAACTCACAACACTACCTTAGCAAAAACCAA ATGGGTAATCTATTTGCGTGGCGAACGCATCAAAAAGGAACATACCTCCTATGGCTGGAAGGACGACGTCTGGAAC GTTGAGTCGCGCATCAAGGACTTATTCGACTCGAGTCACATGAAGTATGACGATGGACATAATCTTATTGAAGATA TTTTGGAGTTAGAATCGAGCGTGCAAAAAAAGCTTATTAACGAACTTATTGAAATTATCCGCCTGACAGTACAGCT GCGCAACAGTAAGTCAGAGCGTTATGACCGCACTGAAGCAGAGTATGATCGCATTGTATCGCCAGTAATGGATGAG AATGGCCGTTTCTATGACTCCGAAAACTACATTTTTAACGAGGAAACCGAATTGCCCAAAGATGCTGATGCAAATG GAGCATATTGCATCGCATTGAAAGGGCTTTACAACGTGATCGCCATCAAAAACAATTGGAAAGAAGGCGAGAAATT CAACCGCAAATTACTTAGTCTTAACAACTATAATTGGTTTGATTTTATTCAGAACCGTCGTTTCTAA SEQ ID NO: 103 ART26_WT ATGGTAGGTAATAAAATATCAAATTCGTTTGATTCGTTTACTGGAATCAACGCATTAAGTAAAACGTTAA GAAATGAGTTAATTCCATCAGATTATACTAAGAGACATATTGCTGAGAGTGATTTTATTGCGGCTGATAC AAACAAAAATGAAGATCAGTATGTAGCAAAAGAAATGATGGATGATTATTATCGCGATTTTATAAGTAAG GTTCTAGATAATTTACATGATATAGAATGGAAAAATTTGTTTGAATTAATGCATAAAGCGAAAATAGATA AAAGTGATGCAACTTCAAAAGAGTTGATAAAAATTCAGGATATGCTTCGTAAAAAAATAGGAAAAAAATT CTCTCAAGATCCTGAATATAAAGTCATGCTCAGTGCTGGTATGATAACAAAGATTTTACCAAAATATATA TTGGAGAAATATGAAACTGATAGAGAAGACAGATTAGAAGCAATAAAAAGATTTTACGGATTCACAGTTT ATTTTAAAGAATTTTGGGCAAGTAGACAAAATGTATTTTCTGATAAGGCAATAGCGTCATCTATATCATA TAGAATCATACACGAGAATGCCAAAATATATATGGATAACCTGGATGCTTATAATAGAATAAAACAGATT GCTTGTGAAGAAATTGAGAAGATTGAAGAAGAGGCATATGTTTTTCTGCAAGGTGACCAGTTAGATGTGG TATATACCGAAGAAGCATATGGACGATTTATATCCCAGAGTGGAATAGATTTATATAATAATATATGTGG GGTTATTAATGCTCATATGAATTTATATTGCCAGAGCAAAAAATGCTCCAGATCAAAGTTTAAAATGCAA AAATTACATAAACAGATTTTATGTAAAGCAGAAACCGGGTTTGAAATTCCATTAGGCTTTCAAGATGATG CGCAAGTGATAAATGCGATTAATTCATTTAATGCTCTAATAAAAGAAAAAAATATTATATCACGTCTCAG AACTATAGGGAAAAGCATATCTTTATATGACGTAAATAAGATATATATTTCATCTAAAGCGTTCGAGAAT GTATCTGTATACATTGATCATAAATGGGATGTGATAGCTTCAAGCTTGTATAAGTATTTCTCGGAAATTG TCAAAGGAAATAAAGACAACAGGGAAGAAAAGATTCAGAAGGAAATTAAGAAAGTAAAGAGCTGTAGTCT GGGTGATTTGCAGAGACTGGTTAATTCATATTATAAAATAGATAGCACATGTTTGGAGCATGAAGTAACT GAATTTGTTACTAAAATAATAGATGGGATAGATAACTTTCAAATTACGGATTTTAAATTTAACGACAAAA TTAGCTTGATTCAAAATGAACAGATTGTCATGGATATAAAAACATATCTTGATAAATATATGAGTATTTA TCATTGGATGAAATCGTTTGTGATTGATGAGCTAGTTGATAAGGATATGGAGTTTTATTCAGAACTTGAT GAACTTAATGAGGATATGTCGGAAATTGTGAATTTATATAACAAAGTGCGTAACTATGTTACACAGAAGC CTTATAGTCAGGAAAAGATAAAATTGAACTTCGGATCACCGACTCTTGCCGATGGATGGTCGAAATCAAA GGAATTTGATAACAATGCTATTATATTGATTCGTGATGAAAAAATATATTTGGCAATATTTAACCCAAGA AATAAACCAGCTAAGACTGTTATATCAGGACACGATGTTTGCAATTCTGAAACAGATTATAAGAAAATGA ATTATTATTTGCTCCCTGGGGCAAGTAAGACTTTACCACATGTGTTTATTAAGTCTAGATTGTGGAATGA ATCACATGGAATACCTGATGAAATACTGCGGGGATATGAGTTGGGTAAACACTTGAAATCATCGGTAAAT TTTGATGTAGAATTCTGCTGGAAGCTAATTGATTATTATAAAGAATGTATAAGCTGTTATCCAAATTATA AGGCGTATAATTTTAAATTTGCTGATACAGAATCGTACAATGATATATCAGAATTCTATAGAGAAGTGGA GTGTCAGGGATATAAGATTGACTGGACATATATAAGTTCAGAAGATGTAGAACAACTTGATCGTGATGGT CAAATATATCTGTTTCAAATCTATAATAAAGACTTTGCACCGAATAGTAAAGGAATGGATAATCTTCATA CGAAGTACCTCAAAAATATATTTAGCGAAGACAATCTTAAAAACATAGTTATAAAATTGAACGGAGAGGC AGAATTATTTTATAGAAAATCAAGTGTCAAGAAAAAAGTAGAACATAAAAAGGGTACGATTTTAGTCAAT AAAACATATAAGGTTGAGGATAACACTGAAAACAGTAAAGAAAAAAGAGTTATTATTGAATCAGTACCAG ATGATTGCTATATGGAACTTGTTGATTATTGGAGAAATGGTGGTATCGGAATTCTTTCAGACAAAGCTGT TCAATATAAGGACAAAGTATCTCATTATGAAGCTACTATGGATATAGTCAAGGATCGCAGGTATACAGTA GATAAGTTTTTTATACATTTGCCTATAACTATCAATTTCAAAGCAGATGGAAGAATTAATATAAATGAAA AGGTACTCAAGTATATAGCGGAAAATGATGAGCTTCATGTGATTGGAATTGATAGAGGAGAAAGAAATCT CCTTTATGTGTCAGTAATTAATAAAAAGGGAAAGATTGTTGAGCAGAAGTCTTTCAATATGATAGAAAGC TATGAAACTGTAACAAATATAGTTAGAAGATATAATTATAAAGACAAACTGGTCAACAAAGAAAGTGCCC GGACAGATGCGAGAAAAAATTGGAAAGAAATTGGAAAGATAAAAGAAATAAAAGAGGGATACTTGTCACA GGTAATTCATGAAATATCGAAGATGGTGTTGAAATATAATGCAATCATTGTTATGGAAGATCTAAATTAT GGATTTAAACGAGGTAGGTTTAGGGTTGAACGTCAGGTATACCAGAAATTTGAGAATATGTTGATATCTA AACTGGCATACTTGGTAGATAAAAGTCGAAAAGCCGATGAACCAGGAGGTGTACTAAGAGGGTATCAGCT TACGTATATTCCAGATTCTTTAGAGAAACTTGGTAGCCAGTGTGGGATCATATTCTATGTACCTGCTGCG TATACATCTAAGATTGATCCGTTAACAGGCTTTGTAAATGTATTCAATTTTAGAGAATATTCTAATTTTG AAACAAAATTGGATTTTGTTAGATCATTAGACAGTATACGATATGATACAGAGAAGAGATTGTTTTCAAT ATCATTTGATTATGACAACTTTAAAACACATAATACCACTCTGGCAAAAACGAAGTGGGTTATATATTTA CGAGGCGAGCGTATAAAAAAGGAACATACATCTTACGGGTGGAAGGATGATGTTTGGAATGTGGAAAGTA GAATTAAAGACTTGTTTGACAGTTCACATATGAAATACGATGATGGACATAATTTAATTGAAGATATTCT TGAATTAGAATCGAGTGTACAGAAGAAGCTGATCAATGAATTGATAGAAATAATAAGGTTGACTGTTCAA CTTCGTAACAGTAAGTCAGAGAGATACGATAGGACAGAAGCTGAATACGACAGAATAGTATCGCCAGTTA TGGATGAAAAAGGACGGTTTTATGATTCGGAAAATTATATTTTCAATGAAGAAACAGAGTTACCAAAGGA TGCAGATGCTAATGGTGCATATTGCATTGCATTAAAAGGTCTGTACAATGTCATAGCCATAAAGAATAAC TGGAAAGAAGGAGAGAAATTCAACAGAAAATTGTTAAGTCTAAATAATTATAACTGGTTCGATTTTATAC AAAATAGAAGGTTTTAA SEQ ID NO: 104 ART26_Optimized1 ATGGTTGGAAACAAGATTTCAAATAGCTTTGACAGCTTCACCGGAATTAATGCCTTGTCTAAGACATTACGTAACG AATTGATCCCGAGTGACTACACCAAACGCCATATTGCGGAGAGTGACTTCATTGCTGCGGATACGAATAAGAATGA GGACCAATATGTCGCCAAGGAGATGATGGACGATTACTACCGTGACTTCATTTCCAAAGTGTTGGACAACCTGCAT GACATCGAGTGGAAGAATCTGTTTGAGCTTATGCACAAGGCTAAAATTGATAAGAGCGATGCTACTAGCAAAGAGC TTATCAAGATCCAGGATATGCTGCGCAAGAAAATTGGCAAAAAGTTTTCACAGGACCCAGAGTACAAAGTAATGTT ATCCGCGGGCATGATTACGAAAATTCTTCCCAAGTATATTTTGGAGAAGTACGAAACAGACCGCGAAGATCGTTTG GAGGCGATTAAGCGTTTCTACGGCTTCACCGTTTATTTTAAAGAATTTTGGGCCTCTCGTCAAAATGTGTTTTCGG ATAAGGCGATCGCCTCATCTATTAGCTACCGCATCATCCACGAAAATGCCAAAATCTATATGGATAATCTTGACGC CTATAATCGTATCAAGCAAATTGCATGTGAGGAGATTGAGAAGATCGAGGAAGAGGCATATGTGTTTTTGCAGGGT GACCAATTGGACGTTGTGTATACCGAGGAAGCCTACGGTCGCTTTATTTCCCAGTCGGGTATTGACTTGTACAACA ATATTTGCGGAGTGATCAATGCTCATATGAACCTTTATTGCCAATCGAAAAAGTGCTCGCGCAGCAAGTTTAAGAT GCAGAAATTGCATAAACAAATCTTGTGTAAAGCGGAAACAGGGTTTGAGATTCCCTTAGGATTCCAGGACGATGCG CAAGTTATCAATGCCATTAATTCCTTCAATGCACTGATTAAAGAAAAAAATATTATTAGCCGTCTTCGTACTATTG GGAAGTCCATTAGTCTTTACGATGTGAACAAGATTTACATTTCTTCGAAGGCGTTTGAGAATGTGTCCGTGTATAT TGATCATAAATGGGACGTCATCGCTAGTTCTCTGTACAAATACTTCAGTGAAATCGTTAAAGGCAATAAGGACAAC CGTGAAGAGAAGATCCAAAAGGAGATTAAGAAAGTTAAGTCGTGCAGCCTTGGGGACCTGCAACGTTTGGTGAACA GCTATTACAAAATTGATTCAACGTGCCTGGAACATGAAGTAACCGAATTCGTAACAAAAATTATTGACGGTATCGA TAATTTCCAAATTACAGACTTCAAGTTCAACGATAAAATTAGTCTTATTCAAAACGAACAGATCGTGATGGACATC AAGACTTACTTGGACAAGTATATGTCCATTTACCACTGGATGAAATCGTTCGTTATCGATGAGCTTGTTGATAAAG ACATGGAATTCTACTCCGAACTTGATGAATTAAACGAGGACATGAGTGAGATTGTTAACTTATACAATAAGGTCCG TAATTACGTTACGCAGAAACCGTATAGCCAGGAAAAGATTAAATTAAATTTTGGCAGCCCGACATTGGCTGACGGA TGGAGCAAATCTAAGGAGTTTGATAATAACGCGATCATCCTTATCCGCGATGAGAAGATTTATCTGGCTATTTTCA ATCCACGTAATAAGCCGGCGAAGACAGTCATTAGCGGACATGATGTCTGCAACTCGGAAACAGATTATAAAAAGAT GAACTATTATTTATTACCGGGGGCTAGCAAGACTTTACCCCATGTGTTCATTAAATCTCGCTTGTGGAACGAGAGC CACGGAATCCCCGATGAGATCCTTCGCGGCTATGAATTAGGCAAACATCTTAAAAGTAGCGTAAACTTTGATGTGG AATTCTGCTGGAAGCTTATCGACTATTACAAAGAATGTATCTCATGTTACCCAAATTATAAGGCATATAATTTTAA GTTCGCTGACACCGAGTCATACAATGATATCAGTGAATTTTATCGCGAAGTGGAATGTCAAGGGTATAAAATTGAT TGGACCTATATTTCAAGTGAGGACGTGGAGCAACTGGATCGCGACGGTCAGATCTACTTATTTCAGATCTACAACA AGGACTTTGCGCCCAATAGTAAGGGGATGGATAATTTGCACACCAAGTACCTGAAAAACATTTTTTCGGAGGACAA TTTGAAAAATATTGTCATTAAACTTAATGGAGAGGCCGAACTGTTTTACCGCAAATCTAGTGTTAAAAAGAAGGTT GAGCATAAAAAAGGTACTATTTTAGTGAATAAAACATACAAAGTAGAAGACAATACGGAAAACAGCAAAGAGAAGC GTGTAATCATTGAAAGTGTACCGGACGACTGCTACATGGAACTTGTGGATTATTGGCGCAATGGTGGCATCGGTAT CTTATCGGATAAAGCTGTGCAGTATAAGGACAAGGTTTCCCATTATGAGGCGACTATGGATATCGTTAAAGATCGC CGTTACACTGTAGACAAGTTCTTCATCCATTTGCCGATTACTATTAACTTTAAGGCGGACGGGCGCATCAACATTA ACGAAAAAGTACTTAAGTACATCGCTGAGAACGACGAGCTTCACGTCATTGGTATTGACCGTGGAGAACGCAATTT ATTATATGTATCAGTAATTAATAAGAAAGGAAAGATCGTCGAACAAAAAAGTTTCAATATGATCGAGTCATACGAA ACAGTCACGAACATTGTGCGTCGCTACAATTATAAGGATAAACTTGTGAATAAGGAAAGCGCACGTACAGACGCCC GCAAAAACTGGAAGGAAATCGGGAAAATTAAAGAAATCAAGGAAGGATACCTGTCTCAAGTTATTCACGAAATTTC CAAAATGGTACTTAAATACAATGCTATTATCGTCATGGAGGATTTGAATTATGGCTTTAAGCGCGGACGCTTTCGT GTTGAACGCCAAGTATACCAGAAGTTCGAAAATATGTTAATCTCTAAATTGGCATACCTGGTGGATAAGAGCCGCA AGGCCGACGAACCAGGAGGGGTTCTGCGTGGATACCAATTAACATATATTCCGGATAGTCTGGAGAAACTTGGATC TCAGTGCGGTATCATTTTTTATGTTCCGGCAGCTTATACCTCAAAGATCGATCCGCTGACAGGATTTGTCAACGTA TTTAATTTTCGCGAATATTCTAATTTCGAGACTAAATTAGACTTTGTCCGTTCGTTAGATTCTATCCGTTACGATA CTGAAAAGCGTCTGTTCTCTATTTCTTTCGACTACGACAACTTTAAAACGCATAATACGACGCTTGCCAAGACCAA ATGGGTTATCTATTTACGTGGAGAGCGCATCAAAAAAGAGCACACATCTTACGGATGGAAGGACGATGTATGGAAC GTCGAGTCGCGCATCAAGGACTTGTTCGACTCAAGTCACATGAAGTACGACGACGGACATAACTTGATTGAGGACA TCCTTGAGCTGGAGTCCAGTGTACAAAAGAAATTAATCAATGAGCTGATCGAGATCATTCGCTTAACAGTTCAGTT GCGCAACTCCAAAAGCGAGCGTTATGACCGCACCGAAGCCGAGTACGACCGTATTGTATCACCCGTGATGGACGAG AAGGGCCGCTTCTACGACAGCGAAAATTACATTTTTAACGAGGAAACTGAGCTTCCCAAGGATGCCGACGCCAACG GTGCTTACTGTATCGCCTTAAAGGGGTTATACAACGTCATTGCGATTAAAAATAACTGGAAGGAGGGTGAGAAGTT TAACCGTAAGTTATTATCGCTTAACAACTATAATTGGTTTGATTTTATTCAGAACCGTCGCTTTTAA SEQ ID NO: 105 ART26_Optimized2 ATGGTGGGTAATAAAATTTCCAACTCTTTCGACAGTTTCACCGGAATCAACGCTTTGTCCAAGACATTGCGCAATG AATTAATCCCTTCAGATTACACAAAGCGCCACATTGCCGAAAGCGACTTCATCGCTGCCGATACAAATAAAAACGA AGATCAGTATGTAGCGAAAGAAATGATGGATGATTACTATCGTGACTTCATCAGCAAGGTTCTGGATAATCTGCAT GATATCGAGTGGAAAAATTTATTTGAACTTATGCACAAAGCTAAGATCGATAAATCCGATGCAACGTCGAAGGAGC TGATCAAGATCCAGGACATGCTGCGCAAGAAGATTGGGAAAAAGTTCTCACAAGACCCGGAATACAAAGTAATGTT GTCAGCAGGAATGATCACTAAAATTCTGCCCAAGTACATTTTAGAAAAATACGAAACCGACCGCGAAGATCGTTTA GAGGCAATCAAGCGCTTCTACGGCTTTACCGTATATTICAAAGAGTTCTGGGCTAGTCGCCAAAATGTTTTCTCTG ATAAGGCTATCGCCTCATCGATTTCATATCGCATCATCCACGAAAATGCAAAGATTTATATGGACAACCTGGACGC TTATAATCGCATCAAGCAGATCGCTTGCGAGGAGATTGAAAAGATCGAAGAAGAGGCATATGTATTTTTACAAGGG GACCAGTTAGATGTGGTCTACACAGAAGAAGCATATGGACGCTTCATCTCCCAATCAGGGATTGACCTGTACAACA ATATTTGCGGTGTGATTAACGCACATATGAATTTGTATTGCCAGTCCAAGAAGTGTTCCCGCAGTAAATTCAAGAT GCAGAAATTGCATAAGCAGATCTTATGCAAAGCCGAGACGGGTTTTGAAATCCCCCTGGGCTTCCAAGATGACGCA CAGGTCATCAACGCCATCAATTCATTTAATGCCCTTATCAAGGAGAAGAATATCATCTCTCGTTTACGCACTATCG GGAAAAGTATCTCACTTTACGACGTCAACAAGATCTATATTTCGAGTAAAGCGTTCGAAAATGTGTCAGTGTATAT CGACCATAAATGGGATGTGATTGCCTCATCACTGTACAAGTACTTCAGCGAGATTGTTAAAGGAAATAAGGATAAT CGCGAGGAGAAGATCCAGAAAGAGATCAAGAAAGTCAAGTCATGCAGTCTTGGAGACTTACAACGCCTTGTTAATT CGTATTACAAGATCGATTCCACCTGTCTTGAGCACGAAGTCACGGAGTTCGTAACAAAAATCATCGACGGCATCGA CAATTTCCAAATTACAGACTTTAAATTCAATGACAAGATCAGTTTAATTCAGAATGAGCAGATCGTGATGGACATC AAAACATATCTGGATAAGTACATGTCAATTTATCATTGGATGAAGTCATTTGTAATCGATGAGCTGGTTGATAAAG ACATGGAATTCTATTCTGAGTTAGACGAACTTAACGAAGATATGTCCGAGATTGTTAACTTATATAACAAGGTCCG TAACTACGTCACACAGAAGCCCTATTCACAGGAAAAAATTAAGTTGAATTTCGGATCCCCGACTTTGGCTGATGGC TGGTCCAAGTCTAAAGAGTTCGACAACAACGCGATCATCCTGATTCGCGATGAGAAGATCTATCTGGCAATCTTTA ACCCCCGCAACAAGCCCGCAAAAACAGTCATCTCCGGCCATGACGTCTGTAATTCGGAGACGGATTACAAGAAGAT GAATTATTATTTGTTGCCGGGTGCCTCCAAGACGTTGCCACACGTTTTTATTAAAAGTCGCCTGTGGAATGAGTCT CATGGTATTCCGGATGAAATTTTACGTGGCTATGAACTGGGCAAACATCTTAAATCTTCGGTAAACTTCGATGTGG AATTTTGCTGGAAACTTATTGATTACTATAAGGAATGCATCTCTTGCTATCCGAACTACAAAGCTTATAACTTCAA ATTCGCGGACACAGAGTCTTACAACGATATTTCAGAGTTTTATCGCGAGGTGGAGTGTCAGGGTTACAAGATTGAC TGGACGTATATCTCGTCTGAGGACGTAGAACAGTTGGATCGTGACGGACAGATTTACTTGTTTCAAATTTACAACA AGGACTTTGCTCCCAACAGCAAAGGGATGGACAACCTGCACACGAAGTATTTAAAAAATATCTTTAGCGAGGACAA TCTGAAAAATATCGTTATTAAGTTAAATGGCGAGGCTGAGCTGTTTTATCGCAAATCGTCGGTTAAGAAAAAAGTA GAACACAAAAAAGGTACTATCTTAGTGAATAAGACATATAAAGTTGAGGACAACACCGAAAACTCAAAAGAAAAGC GCGTAATCATTGAGAGTGTGCCAGACGATTGCTACATGGAATTGGTAGACTACTGGCGTAACGGAGGCATCGGAAT CCTGAGCGATAAGGCTGTACAATACAAAGACAAAGTGTCACATTACGAAGCAACAATGGATATCGTTAAGGATCGT CGCTATACAGTTGATAAGTTCTTTATTCATCTGCCTATTACCATTAATTTTAAGGCTGACGGTCGTATCAATATCA ACGAAAAGGTCCTTAAGTATATCGCTGAGAATGACGAACTTCACGTTATCGGTATCGATCGTGGAGAGCGTAACTT ATTATACGTGTCAGTAATTAATAAGAAAGGAAAGATCGTGGAGCAAAAATCGTTCAATATGATTGAGTCCTATGAG ACCGTAACTAATATTGTTCGCCGTTACAACTACAAGGATAAGTTAGTAAATAAAGAATCTGCTCGCACGGACGCCC GCAAAAATTGGAAAGAGATCGGAAAGATCAAGGAAATCAAAGAAGGTTATTTAAGCCAGGTCATCCACGAAATTTC AAAGATGGTCCTTAAGTATAACGCCATTATCGTTATGGAGGACCTTAACTACGGGTTCAAGCGCGGCCGCTTTCGT GTAGAACGTCAAGTTTATCAAAAGTTCGAGAACATGCTTATCAGCAAACTGGCGTATCTGGTTGACAAAAGCCGTA AAGCGGATGAGCCTGGTGGTGTTCTTCGTGGTTATCAATTGACTTACATTCCCGATTCCCTGGAAAAACTTGGTAG CCAGTGTGGTATTATTTTCTACGTTCCTGCGGCCTACACGTCAAAGATCGACCCCCTTACAGGTTTTGTCAACGTT TTTAACTTTCGCGAGTATTCAAACTTTGAAACAAAGTTAGACTTTGTACGCAGCTTAGATAGCATTCGTTATGATA CGGAAAAACGTTTGTTCAGCATCAGCTTTGACTATGACAATTTTAAGACTCATAACACAACATTAGCGAAAACAAA ATGGGTTATTTATCTTCGTGGCGAACGTATCAAAAAGGAGCATACTAGCTATGGGTGGAAGGATGACGTGTGGAAT GTGGAATCGCGCATCAAAGACTTGTTCGATAGTTCTCACATGAAGTATGACGACGGTCACAATCTTATCGAAGACA TTCTGGAGCTGGAGTCTAGCGTCCAAAAGAAACTTATCAATGAGTTGATTGAGATCATTCGCTTAACTGTACAGCT TCGTAATTCTAAATCGGAGCGCTACGACCGTACAGAAGCTGAGTACGACCGCATCGTCAGTCCAGTGATGGATGAA AAGGGGCGCTTTTACGACTCCGAGAATTACATTTTTAATGAAGAGACTGAACTTCCAAAGGACGCGGATGCAAACG GGGCTTATTGTATTGCACTGAAGGGATTATACAACGTTATTGCCATCAAGAATAATTGGAAGGAGGGCGAGAAGTT TAACCGCAAATTGTTGTCTTTGAATAATTACAATTGGTTCGATTTTATTCAAAATCGCCGTTTCTAA SEQ ID NO: 106 ART26_Optimized3 ATGGTAGGCAATAAAATCTCGAATTCATTCGATTCCTTTACTGGGATCAACGCGTTATCGAAAACATTGCGCAATG AACTTATCCCGTCAGATTACACCAAACGTCATATCGCAGAGTCGGATTTTATCGCCGCTGACACAAATAAAAACGA GGACCAGTATGTGGCTAAAGAGATGATGGACGACTACTATCGTGATTTCATCTCCAAGGTATTAGATAACCTTCAT GACATTGAGTGGAAAAACTTGTTTGAGCTGATGCACAAAGCAAAGATTGACAAATCGGACGCAACTTCAAAGGAGC TTATCAAAATTCAGGACATGTTGCGCAAGAAGATCGGAAAAAAGTTCAGTCAGGACCCAGAATACAAAGTGATGTT GTCGGCTGGGATGATTACAAAAATTTTACCGAAGTACATCTTGGAAAAATATGAGACAGATCGCGAAGATCGCCTT GAAGCAATTAAGCGCTTCTATGGATTCACGGTTTACTTTAAGGAGTTCTGGGCTTCTCGCCAAAATGTGTTTTCGG ATAAAGCGATTGCCAGCAGTATCAGTTACCGCATCATCCACGAAAACGCCAAAATTTATATGGACAACCTGGATGC TTATAACCGTATTAAGCAGATTGCCTGCGAAGAAATTGAAAAAATCGAGGAGGAGGCATACGTATTCTTACAAGGT GATCAACTTGACGTTGTGTATACAGAAGAGGCGTACGGTCGTTTCATCTCGCAAAGCGGCATTGACCTGTACAATA ACATCTGCGGTGTGATTAACGCTCACATGAATCTGTACTGTCAGAGCAAAAAGTGCTCACGTTCAAAGTTCAAAAT GCAAAAATTGCATAAACAAATTTTATGCAAGGCAGAGACGGGGTTTGAAATCCCTCTGGGATTCCAGGACGATGCA CAGGTAATTAATGCAATCAACTCGTTTAACGCTCTGATTAAAGAGAAGAACATTATCTCACGTTTACGCACGATCG GGAAATCTATCTCCTTGTATGACGTCAACAAAATTTATATCTCTTCAAAAGCTTTCGAAAATGTGTCGGTCTACAT TGACCATAAGTGGGACGTTATCGCGAGTTCATTGTACAAATATTTCAGTGAGATCGTTAAGGGAAACAAGGACAAT CGCGAGGAAAAGATCCAGAAAGAGATTAAGAAGGTAAAGAGTTGTAGTTTAGGCGATTTGCAACGTCTGGTCAACT CATATTATAAGATCGATAGTACATGCTTAGAACATGAAGTAACGGAGTTCGTGACTAAGATCATCGATGGAATTGA TAACTTTCAGATTACAGACTTCAAATTCAATGACAAAATCTCGTTAATCCAAAACGAACAGATTGTTATGGACATC AAAACGTATTTAGACAAATACATGTCAATTTATCATTGGATGAAGTCTTTCGTGATCGACGAGTTAGTTGATAAGG ATATGGAATTCTATTCTGAGTTAGATGAATTAAATGAAGACATGAGCGAAATTGTGAACTTATATAATAAGGTCCG CAACTATGTGACACAGAAGCCCTACTCACAGGAAAAGATTAAATTGAACTTCGGGTCGCCGACATTAGCCGACGGT TGGTCAAAATCAAAGGAATTCGATAACAATGCCATTATTTTAATTCGTGATGAGAAAATCTACCTGGCAATTTTTA ATCCCCGCAACAAACCCGCAAAAACTGTAATCAGTGGCCACGATGTATGCAACTCCGAAACAGATTACAAGAAAAT GAATTATTATTTACTGCCAGGGGCGAGCAAAACCCTTCCACACGTATTTATCAAATCCCGCTTATGGAACGAGAGT CATGGGATTCCAGATGAAATCCTGCGTGGCTATGAGCTGGGGAAGCACCTGAAGTCCTCTGTTAACTTTGATGTCG AGTTTTGTTGGAAACTGATTGACTACTATAAGGAGTGCATCTCCTGCTACCCAAACTATAAGGCTTACAATTTTAA ATTCGCCGACACGGAGAGTTACAACGATATTTCCGAGTTCTATCGCGAAGTGGAGTGTCAGGGATACAAAATTGAT TGGACTTATATCTCCTCAGAGGATGTAGAACAATTGGACCGCGATGGCCAGATCTACTTATTTCAAATTTACAATA AGGATTTTGCCCCAAACTCGAAGGGGATGGACAATCTGCACACAAAATACCTGAAGAATATTTTCTCGGAGGACAA CTTAAAAAACATTGTAATTAAATTAAACGGTGAGGCAGAACTGTTTTATCGTAAATCAAGTGTTAAGAAGAAAGTT GAGCACAAAAAAGGGACAATTTTAGTTAATAAGACGTATAAAGTCGAAGACAACACGGAAAACTCCAAGGAAAAAC GTGTAATTATTGAGTCGGTCCCCGATGATTGTTACATGGAATTGGTTGATTACTGGCGTAATGGCGGGATCGGCAT CTTGTCAGACAAAGCTGTCCAATACAAGGACAAAGTGTCTCATTATGAAGCCACGATGGACATCGTAAAGGACCGT CGCTATACTGTCGACAAGTTTTTTATTCACCTGCCGATCACGATTAATTTTAAAGCAGATGGCCGTATCAACATTA ATGAGAAAGTCCTGAAGTACATCGCAGAGAACGATGAACTGCACGTCATTGGAATCGATCGCGGAGAGCGTAATTT ATTATATGTTTCTGTTATCAACAAAAAGGGCAAAATCGTGGAGCAGAAATCGTTCAATATGATTGAATCTTACGAG ACGGTAACAAACATTGTACGCCGTTACAATTATAAGGACAAATTGGTAAATAAAGAGAGCGCACGTACCGACGCTC GCAAAAATTGGAAAGAAATTGGTAAGATCAAGGAAATTAAGGAAGGCTACCTGTCGCAAGTAATCCATGAAATCTC GAAAATGGTATTAAAGTACAACGCGATTATCGTTATGGAGGACCTGAACTATGGTTTCAAGCGCGGACGCTTTCGT GTTGAGCGTCAGGTCTACCAAAAGTTCGAGAACATGTTAATTTCTAAATTAGCATACTTGGTTGACAAGTCCCGTA AAGCGGATGAGCCCGGTGGAGTACTTCGCGGGTATCAATTAACCTACATCCCAGACAGTTTAGAGAAACTGGGCAG CCAGTGTGGTATTATCTTTTACGTTCCTGCCGCGTACACCTCTAAGATCGACCCCCTTACCGGTTTTGTCAATGTC TTCAACTTTCGCGAGTATTCAAATTTCGAAACCAAATTAGATTTCGTTCGCAGCTTGGACAGCATTCGTTACGATA CCGAAAAACGCCTTTTCTCTATCTCTTTCGATTACGATAATTTTAAGACACACAATACTACTCTGGCCAAAACAAA GTGGGTGATCTACTTACGCGGAGAGCGCATCAAAAAGGAGCATACGAGTTACGGATGGAAGGATGATGTGTGGAAC GTAGAATCGCGTATTAAGGATTTATTCGACAGTTCCCATATGAAGTATGATGATGGACACAACTTGATTGAAGATA TTCTTGAACTGGAGTCTAGCGTACAGAAAAAGCTGATCAACGAACTTATTGAGATTATCCGTTTGACCGTCCAACT TCGCAACTCGAAGTCGGAACGCTACGACCGTACTGAAGCCGAATATGACCGTATTGTGTCCCCTGTCATGGACGAG AAGGGGCGCTTTTACGACTCTGAGAATTATATCTTCAATGAAGAGACAGAGTTGCCAAAAGATGCAGATGCCAATG GGGCTTACTGTATTGCACTGAAGGGGTTGTATAATGTCATCGCTATCAAGAATAATTGGAAAGAGGGGGAAAAGTT CAACCGTAAACTTCTTAGTCTTAACAATTACAACTGGTTTGACTTCATTCAAAACCGTCGCTTTTAA SEQ ID NO: 107 ART27_WT ATGCAAGAGCATAAAAAAATATCGCATCTTACACACAGAAATTCAGTTCAAAAAACAATTAGGATGCAAC TGAATCCTGTAGGTAAAACAATGGATTATTTTCAAGCAAAGCAAATTCTTGAGAATGATGAAAAGCTTAA AGAGGACTATCAGAAAATCAAGGAAATAGCAGACAGGTTTTACAGAAATTTAAATGAGGATGTACTTTCA AAAACCGGGTTAGATAAATTAAAAGATTATGCTGAAATTTACTATCACTGTAATACGGATGCAGACCGAA AAAGACTTGATGAATGTGCATCGGAATTAAGGAAAGAAATCGTCAAAAATTTTAAGAATAGAGATGAGTA TAACAAACTATTCAATAAAAAGATGATTGAGATAGTTCTTCCCCAGCATCTTAAAAATGAGGACGAAAAG GAAGTTGTAGCCTCATTTAAAAATTTCACAACATACTTTACAGGTTTCTTCACTAACAGAAAAAATATGT ATTCGGACGGAGAAGAATCCACGGCAATCGCATATAGATGCATTAACGAAAATTTGCCTAAGCATCTTGA CAATGTCAAGGCCTTTGAAAAAGCAATTTCTAAGCTATCCAAAAACGCAGTTGATGATTTAGATACCACT TATTCCGGCTTATGCGGTACAAATTTGTATGATGTTTTTACAGTTGATTATTTTAACTTTTTGCTTCCAC AATCCGGAATTACCGAATATAATAAAATCATCGGCGGTTACACAACAAGCGACGGTACAAAAGTTAAGGG TATTAACGAATATATAAATTTGTACAATCAACAAGTATCCAAACGGTATAAAATTCCTAATCTTAAAATT TTGTATAAACAAATTTTAAGTGAGAGTGAAAAGGTATCATTCATACCGCCAAAGTTTGAAGATGACAACG AACTTTTATCGGCTGTTTCAGAGTTTTACGCAAACGACGAAACCTTTGACGGGATGCCATTAAAAAAAGC AATTGATGAAACAAAGCTATTATTCGGCAATTTAGATAATTCCTCTCTTAATGGAATTTACATTCAAAAT GACCGATCCGTGACAAATCTGTCAAACAGTATGTTCGGTTCTTGGTCAGTAATAGAAGATTTATGGAACA AAAATTATGACTCCGTTAATTCAAACAGCAGAATCAAAGATATTCAAAAGCGTGAAGACAAAAGAAAAAA AGCATACAAAGCAGAAAAGAAACTTTCACTTTCATTTTTACAGGTTTTGATTTCCAATTCCGAAAATGAT GAAATCAGAGAAAAGTCTATCGTAGATTACTACAAGACTTCTTTAATGCAACTTACCGACAATTTATCAG ACAAATACAAAGAAGCAGCACCTCTGTTCAACGAAAGTTACGCTAATGAAAAAGGTTTGAAAAATGACGA TAAATCTATTTCATTAATTAAAAATTTTCTTGATGCCATAAAAGAAATTGAAAAATTCATCAAGCCTTTG TCCGAAACTAATATTACAGGTGAGAAAAATGATTTGTTTTACAGTCAGTTCACACCATTACTTGATAATA TCAGCAGAATAGACATATTATATGATAAGGTCAGAAACTATGTTACACAAAAACCGTTTTCAACCGATAA AATCAAACTTAACTTTGGCAATTCACAGCTATTAAACGGCTGGGATCGAAACAAAGAAAAAGACTGCGGT GCCGTTTGGCTTTGTAAAGATGAAAAGTATTATCTTGCAATCATAGATAAAAGTAATAATAGTATTTTGG AAAATATTGATTTTCAAGACTGCGATGAAAGCGATTGTTATGAAAAGATAATTTACAAGCTTCTCCCCGG TCCAAATAAAATGCTTCCAAAAGTTTTCTTTTCAGAAAAGTGCAAGAAACTTTTGTCACCGTCAGACGAA ATACTTAAAATTCGTAAAAACGGCACTTTCAAAAAAGGTGATAAGTTCAGCCTTGATGATTGCCATAAGT TAATTGATTTCTACAAAGAATCATTCAAAAAGTACCCAAATTGGTTAATTTATAACTTTAAATTCAAAAA AACAAACGAATATAATGATATCAGCGAATTTTATAATGATGTTGCTTCACAGGGATATAATATTTCAAAA ATGAAAATCCCGACATCATTTATTGACAAACTTGTAGATGAAGGAAAAATCTATCTTTTCCAACTCTACA ACAAAGACTTTTCACCGCATAGCAAGGGTACTCCTAATCTGCATACACTTTATTTTAAAATGTTGTTTGA TGAAAGAAATCTTGAAGATGTGGTGTACAAGCTTAACGGTGAGGCAGAAATGTTTTATCGTCCTGCAAGT ATAAAATATGACAAACCAACTCATCCCAAAAACACACCGATAAAAAATAAAAATACACTCAATGATAAAA GAGCAAGCACTTTTCCTTATGACTTAATCAAAGATAAACGCTACACTAAGTGGCAGTTTTCACTTCACTT CCCTATTACCATGAATTTTAAAGCTCCGGATAGGGCAATGATCAATGATGATGTCAGAAATCTGCTGAAA TCCTGCAACAACAATTTCATCATAGGAATTGACAGAGGCGAAAGAAACTTGCTTTATGTCAGCATAATTG ACAGCAACGGTGCTATAATATATCAGCACTCACTCAATATTATCGGAAACAAGTTTAAAGGAAAAACATA CGAAACTAACTACCGGGAAAAACTTGAAACAAGAGAAAAAGAGCGTACGGAACAGCGCCGTAACTGGAAA GCAATTGAGAGTATAAAAGAACTCAAAGAGGGCTATATCAGTCAGGCTGTGCATGTTATATGTCAGCTTG TTGTCAAGTACGATGCAATCATCGTTATGGAAAAGCTGACTGACGGATTCAAACGAGGCAGAACAAAGTT TGAAAAACAGGTTTATCAGAAATTTGAAAAAATGCTGATTGACAAACTTAATTACTATGTTGACAAAAAG CTTGATCCCGATGAAGAAGGCGGTTTACTTCATGCCTACCAGCTTACGAACAAGCTTGAGAGCTTTGATA AGCTTGGCATGCAAAGCGGTTTTATTTTCTATGTTCGTCCTGATTTTACAAGCAAAATTGATCCCGTTAC CGGCTTTGTAAATTTGTTGTATCCTCGATACGAAAACATTGACAAAGCCAAAGATATGATTTCAAGATTT GACGATATAAGATACAATGCCGGCGAGGACTTTTTTGAATTTGACATTGATTACGATAAGTTTCCAAAGA CTGCGTCTGACTATCGCAAGAAGTGGACAATCTGTACTAACGGCGAAAGGATTGAAGCTTTCAGAAATCC CGCAAGCAATAACGAATGGAGTTATCGTACAATAATTCTTGCAGAAAAATTTAAAGAATTATTTGATAAC AATTCTATAAATTATCGTGATTCTGACAATTTGAAAGCTGAAATTCTTTCACAGACAAAGGGCAAATTTT TTGAGGATTTCTTCAAATTATTAAGACTTACCCTACAGATGCGAAACAGTAACCCTGAAACAGGCGAGGA CCGTATTCTTTCTCCCGTCAAGGACAAAAACGGTAATTTTTACGACAGTTCAAAATATGACGAAAAGAGC AATCTTCCGTGTGATGCCGATGCAAACGGTGCGTACAACATTGCCCGCAAAGGTTTGTGGATTGTTGAAC AATTCAAAAAATCCGATAATGTTTCAACTGTCGAACCGGTAATCCACAATGACAAATGGCTGAAATTTGT TCAGGAGAATGATATGGCGAATAATTAA SEQ ID NO: 108 ART27_Optimized1 ATGCAGGAACACAAAAAGATCAGTCACTTGACCCATCGCAACTCGGTGCAGAAGACGATCCGCATGCAATTGAACC CAGTCGGTAAGACGATGGACTACTTTCAGGCTAAACAGATTCTTGAGAACGACGAGAAATTAAAGGAAGATTACCA AAAAATCAAGGAGATTGCAGACCGCTTCTATCGCAATTTAAACGAGGATGTACTGTCGAAGACTGGGTTGGACAAA CTTAAGGATTATGCTGAAATTTATTATCACTGCAATACTGATGCCGACCGCAAACGTCTGGATGAATGCGCTTCCG AGCTGCGTAAGGAAATTGTAAAAAATTTTAAGAACCGCGACGAGTATAATAAGCTTTTTAATAAAAAAATGATTGA AATCGTATTGCCCCAGCACTTAAAAAACGAAGACGAAAAAGAAGTGGTCGCTTCTTTCAAAAATTTCACAACCTAT TTCACGGGTTTTTTTACAAATCGCAAGAATATGTATTCTGACGGGGAAGAATCGACGGCAATTGCTTACCGCTGCA TTAACGAGAACTTGCCCAAACACTTAGACAACGTAAAGGCTTTTGAGAAAGCGATTAGCAAACTGTCCAAGAACGC AGTTGATGATCTGGACACAACCTATAGCGGGTTATGTGGCACAAATCTTTATGATGTTTTTACGGTTGACTACTTT AATTTTTTACTTCCGCAGTCCGGTATTACGGAGTATAACAAGATCATCGGAGGGTACACGACTAGCGATGGCACCA AGGTAAAAGGGATTAACGAGTACATTAACCTTTACAACCAACAGGTTAGTAAACGTTATAAGATTCCGAATCTGAA GATTCTGTATAAGCAAATCCTGAGTGAATCAGAGAAAGTATCGTTTATCCCGCCAAAGTTTGAAGATGATAACGAG CTTCTTTCCGCCGTCTCCGAGTTCTATGCAAACGATGAGACTTTTGACGGGATGCCGCTTAAAAAAGCCATTGATG AGACGAAGCTTTTGTTTGGGAACTTGGACAATTCGTCGCTTAATGGCATTTATATCCAAAACGACCGTAGTGTCAC GAACCTGTCGAATTCAATGTTCGGGTCTTGGTCTGTAATCGAAGATCTTTGGAACAAGAACTATGACTCAGTAAAT AGCAATAGTCGCATTAAAGATATTCAGAAGCGTGAAGACAAACGCAAGAAAGCGTATAAAGCCGAAAAAAAATTAT CTCTTAGCTTTCTTCAAGTCTTAATCTCAAATAGCGAGAATGATGAGATCCGTGAGAAGTCTATTGTAGATTACTA TAAGACGAGTTTAATGCAATTAACTGATAACCTGTCGGATAAATATAAGGAAGCTGCGCCATTATTTAATGAGTCC TACGCAAATGAGAAGGGCTTGAAAAATGACGATAAGTCAATCTCATTGATTAAAAATTTTTTAGATGCCATCAAAG AAATTGAAAAATTCATTAAACCATTAAGTGAGACTAATATCACGGGTGAGAAGAACGACTTGTTCTACTCTCAATT TACGCCTTTATTGGACAACATTAGTCGTATTGATATTCTGTACGACAAAGTGCGCAACTACGTCACCCAGAAGCCT TTCAGCACAGACAAGATTAAGTTAAATTTCGGCAACTCTCAATTGTTGAACGGTTGGGATCGTAATAAGGAGAAAG ATTGTGGTGCTGTCTGGCTTTGCAAAGATGAAAAATACTACCTTGCAATCATTGACAAGTCTAACAACTCTATTCT GGAGAACATCGATTTTCAGGATTGCGATGAATCAGATTGCTACGAAAAAATCATCTATAAGTTATTACCTGGACCG AACAAAATGTTGCCTAAAGTTTTCTTTTCGGAGAAGTGTAAGAAGCTTCTTTCCCCATCGGATGAAATCTTGAAGA TCCGCAAAAATGGGACTTTCAAAAAAGGGGATAAATTCTCTCTGGACGACTGTCACAAATTAATCGACTTCTACAA GGAATCTTTTAAGAAGTATCCTAATTGGCTTATTTATAATTTCAAATTCAAGAAGACGAATGAATATAACGATATC TCAGAATTTTATAATGACGTCGCTTCGCAGGGGTACAATATTAGCAAAATGAAAATTCCCACGTCGTTCATTGACA AACTTGTTGATGAAGGTAAAATTTACTTATTTCAGTTGTACAACAAGGATTTTAGTCCGCACAGCAAGGGCACGCC AAATCTGCATACTCTGTATTTCAAGATGTTGTTTGATGAACGTAATTTGGAGGACGTGGTGTATAAGCTTAACGGG GAAGCGGAAATGTTCTATCGCCCCGCATCAATTAAGTATGATAAGCCGACACACCCAAAAAACACCCCCATTAAAA ACAAAAACACGTTAAACGATAAACGTGCTTCGACATTCCCCTACGACTTGATTAAAGACAAGCGCTATACTAAATG GCAATTTAGCCTTCACTTTCCAATCACTATGAACTTCAAAGCTCCCGATCGCGCCATGATTAACGACGACGTTCGC AATTTACTTAAAAGCTGCAATAACAACTTTATCATTGGGATTGACCGCGGCGAACGTAATCTGTTATATGTCTCAA TCATCGATTCTAATGGCGCAATCATTTATCAACACAGCTTGAATATCATTGGGAATAAGTTTAAGGGTAAAACCTA TGAAACAAACTATCGCGAGAAACTTGAAACGCGCGAGAAAGAACGCACGGAGCAACGCCGCAACTGGAAAGCCATC GAGTCCATCAAAGAATTAAAGGAGGGATACATCTCGCAAGCTGTACATGTGATTTGCCAGCTTGTTGTGAAGTACG ACGCAATTATCGTGATGGAGAAATTGACAGATGGATTCAAGCGCGGTCGTACTAAGTTTGAAAAGCAAGTGTACCA AAAATTCGAAAAGATGCTTATCGATAAACTTAATTACTACGTAGATAAAAAACTGGACCCCGATGAGGAAGGGGGG TTGCTGCACGCATATCAACTGACAAACAAATTGGAGTCTTTCGATAAGTTAGGTATGCAATCGGGCTTCATCTTTT ATGTACGCCCGGACTTCACTAGCAAAATTGACCCTGTAACCGGCTTCGTAAACCTTCTTTATCCTCGCTACGAAAA TATTGATAAAGCAAAGGATATGATTAGCCGTTTCGACGACATTCGCTACAATGCGGGTGAAGACTTTTTTGAATTT GACATTGATTACGACAAATTTCCCAAGACGGCCTCCGATTACCGCAAAAAATGGACTATCTGCACTAACGGAGAAC GTATTGAAGCATTTCGCAACCCGGCCTCCAACAATGAGTGGAGCTACCGTACCATCATCCTTGCCGAAAAGTTCAA AGAATTATTTGATAATAATTCGATCAACTATCGCGATTCGGATAACTTGAAAGCTGAAATCCTTTCTCAGACCAAA GGAAAGTTTTTTGAAGACTTTTTCAAATTGTTGCGTCTGACATTACAGATGCGCAATAGTAATCCCGAAACGGGCG AAGACCGCATTTTAAGTCCGGTTAAGGATAAAAACGGCAATTTCTACGATAGCTCTAAGTATGACGAGAAATCGAA TTTACCATGTGACGCAGATGCAAACGGTGCGTATAACATCGCGCGTAAAGGTTTGTGGATTGTCGAGCAGTTTAAA AAGTCTGACAACGTTTCTACGGTAGAACCGGTTATCCATAATGATAAGTGGTTAAAATTTGTACAGGAGAACGACA TGGCCAACAACTAA SEQ ID NO: 109 ART27_Optimized2 ATGCAGGAACATAAAAAGATTAGTCACCTGACCCACCGTAATTCTGTACAAAAGACCATTCGCATGCAGTTAAATC CGGTAGGCAAGACAATGGACTACTTTCAGGCGAAACAGATTTTAGAGAACGACGAGAAATTAAAAGAAGACTATCA GAAGATCAAGGAAATTGCTGATCGTTTTTACCGTAATCTTAATGAAGATGTCTTGAGTAAGACGGGTCTTGACAAA TTGAAGGACTATGCTGAGATTTATTATCATTGCAATACTGATGCCGATCGTAAACGTTTGGATGAGTGTGCGTCGG AGTTGCGCAAGGAGATTGTCAAGAATTTTAAAAACCGCGATGAATACAACAAGTTGTTCAACAAGAAAATGATCGA GATTGTGCTGCCGCAACACCTTAAAAACGAAGACGAGAAGGAGGTCGTAGCATCCTTTAAGAACTTTACTACATAC TTTACCGGCTTCTTCACGAATCGCAAAAACATGTACTCCGACGGTGAAGAATCCACAGCTATCGCTTACCGCTGCA TTAACGAAAATTTACCGAAGCATCTGGACAATGTCAAAGCATTCGAAAAGGCCATCAGCAAACTTTCGAAGAACGC GGTGGACGACTTAGATACGACATACTCAGGCTTGTGTGGGACAAATTTGTACGACGTCTTCACGGTGGATTACTTC AATTTCCTGCTGCCTCAGAGTGGCATTACCGAATATAATAAAATTATCGGTGGTTACACGACCTCAGACGGCACGA AAGTTAAGGGGATCAATGAATATATTAATTTGTACAATCAACAAGTGTCGAAGCGTTACAAAATCCCAAATCTTAA GATCTTGTATAAGCAGATCCTTTCTGAATCTGAGAAAGTTTCGTTCATTCCGCCAAAGTTCGAGGATGACAACGAG TTGCTGTCAGCGGTGTCCGAATTTTACGCGAATGACGAGACGTTCGACGGGATGCCGTTGAAAAAAGCAATTGATG AGACAAAACTTCTTTTCGGGAATCTGGATAATAGTTCTCTGAATGGCATTTATATTCAGAACGACCGCTCTGTGAC CAATTTGTCCAATTCAATGTTTGGGTCATGGTCAGTGATCGAAGACCTTTGGAACAAGAACTATGATTCAGTTAAT TCCAACTCTCGTATTAAGGATATCCAAAAGCGCGAAGATAAACGCAAAAAGGCTTACAAGGCGGAGAAGAAGTTGA GCCTGTCCTTCCTTCAGGTGTTGATCAGTAACAGTGAGAACGATGAAATTCGCGAGAAATCTATTGTAGACTACTA TAAGACTTCTTTGATGCAACTGACCGATAACTTATCCGATAAGTATAAGGAAGCAGCGCCACTTTTCAACGAGAGT TATGCGAACGAGAAAGGCCTGAAGAATGACGATAAGTCGATTTCATTGATCAAAAATTTCTTGGACGCGATCAAAG AGATTGAAAAATTTATTAAACCGCTGTCCGAGACTAACATCACCGGCGAGAAAAATGACTTGTTTTATTCCCAGTT TACGCCTTTGCTGGACAACATCTCTCGCATCGACATCTTATACGATAAGGTGCGCAATTACGTAACGCAAAAGCCA TTCTCGACAGACAAAATTAAGCTGAACTTCGGGAACAGCCAGTTACTTAACGGTTGGGATCGCAATAAAGAGAAGG ATTGCGGCGCGGTGTGGTTGTGTAAAGACGAGAAGTATTATCTTGCGATCATTGATAAATCGAACAACAGTATTTT GGAGAACATCGATTTCCAGGACTGTGATGAAAGTGACTGCTACGAAAAGATCATTTATAAACTGTTACCAGGCCCC AATAAAATGCTTCCGAAGGTTTTTTTCAGCGAAAAATGCAAAAAGCTTTTGTCCCCAAGTGACGAAATTCTTAAGA TTCGTAAAAACGGTACTTTCAAAAAGGGCGATAAATTCAGCCTGGATGACTGCCACAAGCTGATCGATTTTTATAA AGAATCCTTCAAAAAATACCCAAACTGGTTAATTTATAACTTTAAGTTCAAAAAGACAAATGAGTACAATGATATC TCCGAGTTTTATAATGATGTAGCGTCCCAGGGATACAACATCTCAAAAATGAAAATCCCCACTAGCTTTATCGATA AATTAGTCGATGAGGGTAAAATTTATTTATTTCAATTGTATAACAAAGATTTTAGCCCGCATTCGAAAGGTACGCC TAATCTTCACACCCTTTATTTTAAAATGCTTTTTGACGAACGTAACCTTGAGGATGTTGTATACAAATTGAACGGA GAGGCGGAGATGTTTTATCGCCCCGCGTCCATTAAATATGACAAGCCGACGCACCCGAAAAACACACCGATCAAAA ACAAGAACACTTTAAACGATAAACGCGCGTCAACGTTTCCTTACGACCTGATTAAAGATAAACGCTACACTAAGTG GCAGTTCTCCTTGCACTTCCCGATCACTATGAACTTTAAGGCACCCGATCGCGCAATGATCAACGATGATGTCCGC AATCTGTTAAAGAGCTGCAACAATAATTTCATCATTGGAATTGACCGCGGTGAGCGTAATCTTTTATACGTGAGCA TTATTGACTCCAACGGCGCGATTATCTATCAACACTCTTTGAATATCATTGGCAATAAATTTAAAGGTAAGACTTA CGAGACTAATTATCGCGAGAAACTTGAGACCCGTGAGAAGGAGCGTACAGAACAACGTCGCAATTGGAAGGCTATT GAAAGCATTAAGGAGTTGAAAGAAGGTTACATCTCACAGGCTGTACACGTAATCTGTCAATTAGTCGTCAAATATG ATGCAATCATTGTTATGGAGAAATTGACCGACGGCTTCAAACGTGGGCGTACGAAATTTGAAAAGCAAGTGTACCA AAAGTTTGAAAAAATGTTAATCGACAAACTGAATTACTACGTGGACAAAAAGCTTGATCCTGACGAAGAAGGCGGA CTGCTGCATGCTTACCAATTGACGAATAAGCTTGAGAGTTTCGATAAACTGGGGATGCAGTCCGGTTTTATCTTCT ACGTGCGTCCTGACTTTACCTCCAAAATTGATCCTGTAACAGGTTTTGTCAACTTGTTGTATCCGCGCTATGAAAA TATCGACAAGGCTAAGGACATGATTTCTCGTTTCGACGACATTCGTTATAACGCGGGGGAAGATTTTTTTGAATTT GATATCGATTATGACAAGTTCCCTAAAACAGCCAGCGACTACCGCAAGAAGTGGACAATTTGTACTAACGGAGAAC GCATTGAAGCGTTTCGCAATCCAGCATCTAACAATGAGTGGTCTTATCGCACGATCATTCTGGCAGAAAAGTTTAA GGAGCTGTTTGACAACAACTCAATCAATTACCGTGATAGCGATAATTTAAAAGCTGAGATTCTGAGCCAGACAAAA GGTAAGTTTTTTGAGGACTTTTTCAAATTGTTACGTCTTACGTTACAGATGCGCAATTCTAACCCGGAAACTGGAG AAGATCGTATTTTGTCCCCCGTGAAAGATAAAAACGGAAACTTTTATGACAGTTCTAAATACGATGAGAAATCTAA CCTTCCGTGCGATGCGGACGCAAATGGCGCGTATAACATCGCACGTAAGGGACTGTGGATTGTGGAACAATTCAAA AAGTCAGATAATGTGTCTACGGTCGAACCGGTCATCCATAACGACAAGTGGCTGAAGTTCGTCCAAGAAAATGATA TGGCCAACAATTAA SEQ ID NO: 110 ART27_Optimized3 ATGCAGGAACATAAGAAGATCAGCCATTTGACACATCGCAACAGCGTGCAGAAGACAATTCGTATGCAGCTGAATC CCGTCGGCAAAACCATGGATTATTTCCAAGCTAAACAGATTTTGGAAAACGATGAAAAATTAAAAGAAGACTATCA AAAAATCAAGGAGATCGCGGATCGTTTCTATCGTAATCTTAACGAGGACGTCTTGTCGAAGACAGGATTAGACAAG CTGAAAGACTATGCAGAAATCTATTATCACTGCAATACCGACGCAGATCGTAAACGCCTGGATGAATGTGCTTCTG AGCTTCGCAAGGAAATCGTCAAGAACTTCAAGAACCGCGATGAGTATAATAAGTTGTTTAACAAGAAGATGATTGA AATTGTATTGCCTCAACACTTGAAGAACGAGGATGAGAAAGAGGTCGTCGCTTCCTTCAAAAACTTTACTACATAT TTCACAGGATTCTTCACCAATCGCAAGAATATGTATTCTGATGGTGAGGAGTCAACGGCGATTGCCTACCGTTGCA TCAATGAGAACCTGCCGAAACACCTGGACAATGTGAAAGCGTTTGAAAAAGCCATTTCTAAGCTGAGTAAGAACGC AGTCGATGACCTTGACACCACCTATTCAGGATTATGCGGAACTAATTTATACGACGTCTTCACTGTTGATTACTTT AATTTTCTTTTGCCTCAGAGCGGAATCACTGAGTACAACAAAATTATTGGAGGATACACAACTTCTGACGGCACCA AGGTAAAGGGGATTAACGAATATATCAATCTTTATAATCAGCAAGTGTCTAAACGCTACAAAATCCCAAACTTGAA GATCTTATACAAGCAGATCCTTTCAGAGTCGGAAAAGGTTTCGTTCATCCCTCCAAAGTTCGAGGACGATAATGAG TTGTTGTCGGCTGTATCGGAGTTTTATGCCAATGATGAGACGTTTGATGGTATGCCTCTTAAGAAGGCAATTGACG AAACAAAGTTGCTGTTTGGCAATTTGGACAATAGTAGTCTTAATGGGATCTATATCCAAAATGACCGCTCAGTTAC GAACCTTAGCAACTCTATGTTTGGCTCTTGGTCTGTTATTGAAGACCTGTGGAACAAAAATTACGATTCGGTGAAC TCAAATTCGCGTATCAAGGATATTCAAAAGCGCGAGGACAAGCGTAAAAAAGCGTACAAGGCGGAAAAGAAGTTGT CACTTTCGTTCCTTCAGGTCCTTATCTCAAACTCCGAAAACGACGAAATTCGCGAAAAGTCGATCGTCGATTACTA TAAAACTAGCCTTATGCAGTTAACGGATAATCTGTCTGACAAGTATAAAGAGGCAGCACCTCTGTTTAACGAGAGC TACGCGAATGAAAAGGGTCTTAAGAACGATGATAAGTCCATTTCGTTAATTAAGAATTTTTTAGACGCTATTAAAG AGATCGAGAAATTTATCAAGCCACTTTCAGAGACTAATATTACGGGTGAGAAAAATGATCTGTTCTATTCACAATT CACGCCGCTGTTGGATAACATTTCGCGCATTGATATCCTGTATGATAAAGTGCGTAACTACGTGACGCAGAAACCA TTTTCGACCGACAAAATCAAATTAAACTTCGGTAACTCGCAGTTGCTGAATGGTTGGGATCGCAACAAGGAGAAAG ACTGTGGCGCTGTATGGCTTTGCAAAGACGAAAAATATTACTTGGCAATTATCGACAAATCTAATAATTCTATCTT AGAAAACATCGACTTCCAAGATTGTGATGAATCGGATTGTTACGAGAAAATTATTTATAAGTTATTACCTGGTCCA AACAAAATGCTGCCCAAGGTTTTTTTTTCCGAAAAATGTAAGAAGCTGTTAAGTCCAAGTGATGAAATCTTGAAAA TCCGCAAAAACGGCACTTTCAAAAAGGGAGACAAGTTCTCACTGGACGATTGCCACAAACTGATCGATTTCTACAA GGAGTCTTTCAAGAAATATCCGAATTGGTTGATTTACAACTTTAAATTCAAGAAAACAAATGAGTATAACGACATC AGCGAGTTTTATAATGATGTCGCCTCGCAAGGTTACAACATTTCAAAAATGAAGATCCCAACGAGCTTCATCGATA AACTTGTAGATGAAGGAAAAATTTACCTGTTTCAATTATACAACAAAGACTTCAGCCCGCATTCGAAGGGAACCCC CAACCTTCATACGCTGTATTTCAAGATGTTATTCGATGAACGCAACTTAGAAGATGTGGTCTACAAATTAAACGGA GAAGCAGAAATGTTCTACCGCCCCGCGTCGATTAAATATGACAAGCCCACGCACCCGAAGAACACTCCAATTAAGA ATAAGAACACTCTGAATGACAAGCGTGCTTCTACGTTCCCCTATGATTTAATTAAAGACAAACGTTATACGAAGTG GCAGTTTTCTTTACACTTCCCTATCACAATGAATTTTAAAGCCCCCGATCGTGCTATGATCAATGATGACGTGCGT AACTTGTTGAAATCCTGCAACAATAATTTCATTATCGGTATTGACCGTGGCGAGCGCAATCTGCTTTACGTCAGCA TTATTGATTCGAATGGCGCCATCATTTATCAGCACTCGCTGAACATCATCGGTAATAAGTTTAAGGGAAAAACTTA TGAAACTAATTACCGTGAGAAGCTGGAGACTCGTGAGAAGGAGCGCACGGAGCAGCGTCGCAATTGGAAAGCAATT GAGTCGATTAAGGAGCTTAAGGAGGGTTACATCAGCCAAGCAGTCCACGTGATTTGCCAACTGGTTGTGAAATACG ACGCCATCATTGTCATGGAGAAATTAACAGATGGGTTTAAGCGTGGTCGTACTAAGTTTGAAAAACAAGTATATCA AAAATTCGAGAAAATGCTGATCGACAAATTGAATTATTACGTTGATAAGAAATTGGATCCGGACGAAGAGGGAGGC CTTTTACATGCATATCAACTGACAAATAAACTGGAATCCTTCGATAAATTGGGGATGCAGAGTGGATTTATCTTTT ATGTGCGTCCTGACTTCACATCCAAAATTGACCCTGTGACTGGCTTCGTTAATTTATTATACCCGCGTTATGAGAA CATTGACAAAGCAAAAGATATGATTTCGCGCTTTGACGATATTCGCTACAATGCCGGAGAGGATTTTTTTGAGTTT GACATCGACTACGACAAATTCCCTAAGACGGCGAGTGACTATCGCAAAAAGTGGACTATTTGTACAAACGGCGAGC GTATCGAGGCGTTCCGCAATCCAGCCTCGAATAATGAATGGTCGTACCGCACGATCATCCTGGCTGAAAAATTCAA GGAATTATTTGACAATAATAGTATCAACTACCGCGATTCCGATAATCTTAAAGCTGAGATCTTATCCCAGACGAAA GGAAAATTTTTCGAGGACTTTTTCAAACTGCTGCGCCTTACGTTGCAAATGCGCAATTCCAACCCTGAAACCGGCG AAGATCGCATTCTGAGCCCCGTAAAAGATAAGAATGGCAATTTCTACGACTCTTCGAAGTACGACGAGAAATCTAA CCTTCCCTGTGATGCGGACGCTAATGGTGCATACAACATTGCTCGCAAAGGACTGTGGATTGTTGAGCAATTTAAG AAGTCGGACAACGTAAGTACCGTTGAACCGGTGATTCATAACGACAAGTGGCTGAAATTCGTGCAAGAAAACGATA TGGCCAACAACTAA SEQ ID NO: 111 ART28_WT ATGAAGAATCTCGCAAACTTTACAAATTTATACAGCTTACAGAAAACACTTCGTTTTGAACTAAAACCAA TTGGAAAAACTTTAGACTGGATCATCAAAAAGGATCTTTTGAAGCAGGATGAGATTCTTGCAGAAGATTA TAAAATAGTCAAAAAGATTATAGATCGTTATCATAAAGATTTCATAGACCTTGCATTTGAATCCGCCTAT CTACAAAAGAAGTCCTCCGATTCCTTTACCGCGATCATGGAAGCATCTATCCAATCGTATTCTGAACTTT ATTTTATAAAAGAAAAGTCTGACAGAGATAAGAAAGCCATGGAAGAAATTTCCGGAATAATGCGAAAAGA AATAGTAGAATGTTTTACTGGAAAGTATAGCGAAGTTGTTAAAAAGAAATTTGGCAATCTTTTCAAAAAA GAGCTTATCAAAGAAGATTTACTGAATTTTTGCGAACCAGATGAATTACCTATCATCCAAAAGTTTGCGG ACTTCACTACCTATTTTACTGGATTTCATGAAAATCGGGAGAATATGTATTCTAATGAGGAGAAAGCAAC AGCTATTGCCAATCGACTCATCCGCGAAAACCTACCGAGATATCTAGATAACCTAAGGATCATTCGATCA ATCCAAGGCAGATACAAAGATTTTGGTTGGAAAGATTTAGAATCCAATCTGAAGCGGATTGATAAAAATC TCCAATATTCGGATTTCCTTACAGAAAATGGCTTTGTGTACACTTTTTCCCAAAAAGGCATAGACCGGTA CAATTTGATCCTGGGAGGGCAATCGGTCGAGTCGGGAGAGAAGATACAAGGACTTAATGAACTTATCAAT TTGTATAGACAAAAGAATCAATTGGATAGAAGACAACTTCCAAATTTAAAAGAACTGTATAAGCAGATAC TTAGTGATCGAACTAGACATTCTTTTGTACCAGAGAAGTTTTCATCTGATAAAGCACTGTTGCGATCTCT TCTGGATTTTCACAAAGAAGTGATTCAAAATAAAAATTTATTTGAGGAGAAGCAGGTAAGCCTTTTACAG GCAATCAGGGAGACACTTACTGATTTAAAATCCTTTGACCTAGATAGGATATATTTAACAAACGACACAA GTCTCACTCAAATTTCAAATTTTGTATTTGGTGATTGGTCAAAAGTTAAGACAATACTAGCAATCTATTT CGATGAAAACATAGCTAATCCTAAAGACAGACAAAGGCAATCGAATTCATATCTAAAAGCAAAGGAGAAT TGGCTCAAAAAAAATTATTATTCAATACACGAATTGAATGAGGCAATTTCGGTATATGGAAAACATTCTG ATGAGGAATTGCCTAACACAAAGATCGAAGATTATTTCTCTGGTCTTCAAACTAAAGATGAGACTAAAAA GCCAATAGATGTACTCGATGCAATTGTCTCTAAATATGCTGACTTAGAGAGTTTGCTTACGAAGGAATAT CCTGAAGATAAAAATTTAAAATCAGATAAAGGTAGTATCGAAAAAATCAAGAACTACCTAGATTCGATTA AACTATTACAAAATTTTTTAAAACCTCTAAAACCAAAGAAGGTTCAGGATGAAAAGGATTTAGGCTTCTA CAATGATCTTGAACTTTATCTGGAATCACTAGAATCAGCTAATAGCCTTTACAATAAGGTGCGAAACTAT CTAACTGGAAAAGAATACTCAGATGAAAAAATCAAATTAAATTTTAAGAACTCTACACTTCTTGATGGAT GGGATGAGAACAAAGAAACATCGAATTTGAGTGTTATCTTCCGAGATACCAACAATTATTATTTAGGGAT ACTGGATAAACAAAACAATAGAATTTTTGAATCAATACCAGAAATCCAATCTGGGGAAGAAACGATCCAA AAAATGGTTTATAAATTACTTCCGGGCGCAAATAATATGCTTCCAAAAGTATTCTTTTCAGAAAAAGGAT TATTAAAATTTAATCCTTCTGATGAAATTACCTCATTATATTCTGAAGGCAGATTTAAAAAAGGAGATAA ATTCAGTATCAATTCACTCCATACACTCATAGATTTTTATAAGAAATCTTTGGCAGTGCATGAGGATTGG AGTGTTTTTAATTTCAAATTTGATGAAACTAGTCATTATGAAGATATCTCACAATTTTATAGACAAGTTG AATCACAAGGGTATAAGATAACATTCAAACCGATTTCAAAAAAATATATTGATACTTTGGTAGAAGACGG TAAACTATATCTCTTTCAGATTTACAATAAGGACTTTTCTCAAAATAAAAAAGGTGGCGGAAAACCTAAT TTACATACCATTTACTTTAAATCTTTATTTGAAAAAGAAAACTTAAAAGACGTTATTGTTAAGTTAAACG GACAGGCGGAAGTATTTTTTCGCAAAAAATCTATACACTATGATGAGAATATCACACGATACGGACATCA TTCTGAACTCCTAAAAGGAAGATTCAGCTACCCTATCCTTAAGGACAAACGATTCACAGAAGACAAATTT CAGTTTCACTTTCCCATCACACTCAATTTTAAATCAGGAGAAATCAAACAGTTCAATGCACGAGTAAATT CCTATCTGAAACATAACAAAGATGTGAAGATCATTGGAATTGATCGCGGGGAACGCCACTTGCTGTATCT ATCTTTAATCGACCAAGATGGGAAAATACTTCGGCAAGAATCCTTAAACTTAATAAAAAATGACCAAAAT TTTAAAGCCATAAATTATCAAGAGAAATTGCACAAAAAAGAGATAGAAAGAGATCAGGCAAGAAAATCGT GGGGGTCCATCGAGAATATAAAAGAGTTAAAGGAAGGCTATCTGTCCCAAGTGGTACATACAATTTCAAA GTTGATGGTAGAACACAATGCCATTGTTGTTCTAGAAGATTTAAATTTTGGATTTAAACGTGGTCGCCAG AAAGTAGAACGGCAAGTCTATCAGAAATTCGAAAAAATGCTCATTGAAAAGCTAAATTTTTTGGTTTTCA AGGATAAAGAAATGGATGAACCAGGAGGTATCCTAAAAGCATACCAACTAACGGATAACTTTGTGAGCTT TGAAAAAATGGGAAAACAAACAGGTTTTGTTTTCTATGTTCCTGCTTGGAATACAAGTAAAATCGATCCT AAAACAGGTTTCGTCAATTTTTTGCATCTAAACTATGAAAATGTAAACCAAGCAAAAGAATTGATCGGGA AATTTGATCAAATTCGATATAACCAAGATAGAGATTGGTTTGAATTTCAAGTTACGACTGACCAATTCTT TACTAAAGAGAATGCTCCAGATACGCGTACCTGGATAATTTGTTCAACCCCAACCAAACGTTTTTATTCA AAACGAACAGTGAATGGTTCTGTTTCAACAATAGAGATAGATGTGAACCAAAAGTTAAAAGAACTTTTCA ATGATTGCAATTACCAAGATGGTGAAGATTTAGTAGATAGGATTCTTGAGAAAGATTCCAAAGATTTTTT TTCGAAGCTCATTGCCTATTTACGAATCCTTACATCGCTTCGTCAAAATAATGGTGAACAGGGTTTTGAA GAAAGGGATTTTATACTCTCTCCGGTGGTGGGCAGTGATGGTAAATTCTTTAATTCACTAGATGCTAGTT CTCAAGAACCAAAGGATGCAGATGCAAACGGCGCCTACCATATCGCATTAAAAGGATTGATGAATCTACA TGTTATCAATGAAACCGATGATGAATCCTTAGGTAAACCGAGTTGGAAAATTAGCAACAAAGACTGGCTA AATTTTGTATGGCAAAGGCCAAGCTTGAAAGCATAA SEQ ID NO: 112 ART28_Optimized1 ATGAAGAACTTAGCCAACTTTACGAATTTATATAGCCTTCAAAAAACTTTACGTTTCGAATTGAAGCCAATTGGAA AAACACTTGACTGGATCATCAAAAAAGATTTGTTGAAACAGGATGAGATTCTGGCAGAAGATTACAAAATCGTTAA AAAGATTATTGACCGCTACCACAAGGATTTTATTGACCTTGCATTCGAGTCTGCTTACCTGCAAAAAAAATCTAGC GACAGCTTTACGGCAATTATGGAAGCCAGCATCCAGTCATACTCTGAGTTGTATTTTATTAAGGAAAAGTCTGACC GTGACAAAAAAGCCATGGAGGAAATCTCTGGGATCATGCGTAAGGAAATCGTCGAGTGCTTTACGGGTAAGTATTC GGAAGTTGTTAAAAAAAAATTTGGAAATCTTTTTAAGAAGGAGCTGATCAAGGAGGACTTATTAAACTTTTGCGAG CCCGATGAGCTGCCTATTATTCAGAAATTCGCGGACTTTACGACTTATTTCACAGGCTTCCACGAGAATCGCGAGA ATATGTATTCCAATGAAGAAAAAGCAACTGCGATCGCAAACCGTCTGATCCGTGAAAATCTTCCTCGTTATCTTGA CAACCTGCGCATCATTCGCAGTATCCAAGGGCGTTATAAAGACTTTGGGTGGAAGGACCTTGAAAGTAACCTTAAA CGTATTGATAAGAACCTTCAGTATTCCGACTTCCTTACTGAAAATGGGTTCGTCTACACCTTCTCACAAAAGGGCA TCGACCGTTATAATCTTATCTTAGGAGGTCAATCAGTGGAGTCCGGGGAAAAAATCCAGGGCCTTAACGAACTTAT TAACTTGTACCGTCAGAAGAATCAGTTAGATCGCCGTCAACTTCCGAACCTTAAAGAGTTGTACAAGCAAATTTTG TCCGACCGCACCCGTCACAGTTTTGTCCCAGAAAAGTTCAGCAGCGACAAGGCGCTTTTACGCTCACTTCTTGACT TTCATAAAGAAGTTATTCAAAACAAAAACCTGTTTGAAGAAAAACAAGTATCGTTACTGCAAGCTATCCGCGAGAC CTTGACCGACTTAAAGTCTTTTGATCTTGATCGCATCTATTTAACCAACGACACATCCTTGACCCAAATTTCAAAC TTTGTCTTCGGCGATTGGTCCAAGGTTAAAACTATTTTGGCTATTTACTTTGACGAAAATATTGCTAATCCCAAAG ATCGTCAACGTCAGTCCAATTCATATTTAAAGGCAAAAGAGAATTGGCTGAAAAAGAATTACTATAGCATTCATGA GCTGAACGAGGCGATTTCCGTATACGGGAAACATTCTGATGAGGAGCTTCCTAACACTAAGATTGAGGATTACTTC TCCGGGTTACAGACCAAGGATGAGACCAAGAAGCCAATCGATGTGCTTGATGCTATCGTATCAAAGTATGCAGACT TGGAGTCCCTGCTTACGAAAGAATATCCTGAAGATAAAAATTTAAAATCCGATAAGGGTTCGATTGAAAAGATTAA GAATTACTTGGACTCGATTAAGTTGTTACAGAACTTCCTGAAGCCTTTGAAGCCCAAGAAAGTACAGGATGAGAAG GACTTGGGCTTCTATAACGATCTGGAATTATACTTAGAGAGCCTTGAGTCCGCCAACAGCCTGTACAACAAGGTAC GTAATTACTTGACAGGGAAAGAATATAGTGACGAGAAGATTAAGCTTAACTTTAAAAATAGCACCCTTCTTGACGG GTGGGACGAGAACAAGGAAACCTCTAACCTTAGTGTCATTTTCCGCGATACTAACAACTACTACCTGGGTATTTTG GACAAACAGAATAATCGTATCTTCGAAAGCATTCCAGAGATCCAGTCAGGCGAGGAAACCATCCAGAAGATGGTCT ATAAACTTCTTCCCGGTGCAAACAATATGTTACCGAAAGTCTTTTTCTCCGAAAAAGGATTGCTTAAATTCAATCC CTCAGATGAGATCACTTCATTGTATTCGGAAGGGCGTTTTAAGAAGGGTGATAAATTTTCGATTAACAGCTTACAC ACCCTGATCGACTTCTACAAAAAAAGCCTGGCCGTTCACGAAGACTGGTCCGTTTTCAACTTTAAGTTCGACGAAA CTTCGCACTATGAGGATATCTCTCAATTCTATCGTCAGGTCGAAAGTCAGGGGTACAAAATCACGTTCAAACCCAT TAGTAAAAAATACATTGATACCTTGGTGGAGGACGGCAAATTGTACTTGTTCCAAATCTACAATAAGGATTTCTCC CAGAACAAAAAAGGTGGTGGCAAACCAAATTTACATACCATCTACTTCAAGAGTCTTTTCGAAAAGGAGAATTTAA AAGATGTCATTGTTAAGTTAAATGGGCAAGCGGAGGTGTTCTTTCGCAAGAAGTCCATTCATTACGACGAGAATAT TACGCGCTACGGACACCATAGTGAACTTCTTAAGGGCCGCTTTAGCTACCCGATCCTTAAAGATAAGCGTTTTACG GAGGATAAGTTTCAGTTCCACTTTCCGATTACCCTGAACTTTAAGAGCGGCGAGATTAAGCAATTTAATGCTCGCG TCAACTCCTACCTTAAGCACAACAAAGACGTTAAGATCATTGGTATCGATCGCGGAGAACGTCACCTGCTGTATTT ATCCTTAATCGACCAAGATGGGAAGATCTTACGTCAGGAATCTTTGAATCTTATCAAAAACGATCAGAATTTTAAG GCTATTAATTACCAAGAAAAGTTGCATAAGAAAGAGATTGAACGCGACCAGGCACGCAAGAGTTGGGGGTCAATTG AAAACATCAAGGAATTAAAGGAAGGTTACCTTAGCCAGGTAGTGCATACAATCTCCAAGCTGATGGTAGAGCACAA CGCAATCGTTGTATTGGAAGATTTAAATTTCGGGTTCAAACGCGGTCGCCAGAAAGTTGAGCGTCAAGTATACCAA AAATTCGAGAAGATGTTGATTGAGAAACTTAACTTTTTAGTGTTTAAGGACAAAGAGATGGACGAACCAGGCGGGA TTTTAAAAGCGTATCAATTGACTGATAACTTCGTTAGTTTTGAGAAGATGGGCAAGCAGACCGGGTTTGTGTTCTA TGTCCCTGCCTGGAACACCTCTAAAATTGATCCAAAGACCGGGTTCGTCAACTTCCTTCATTTAAATTACGAGAAT GTTAACCAGGCAAAAGAATTAATTGGCAAATTTGATCAGATTCGCTACAACCAGGACCGCGATTGGTTCGAGTTTC AAGTTACCACAGACCAATTCTTCACCAAGGAAAATGCCCCAGACACCCGTACCTGGATTATCTGCTCTACTCCTAC AAAGCGTTTTTACTCAAAGCGCACGGTAAATGGTTCGGTGTCGACGATTGAGATTGATGTAAATCAGAAGCTGAAA GAATTGTTTAATGACTGTAATTATCAAGATGGGGAGGATTTAGTCGATCGCATCCTTGAGAAGGACAGTAAGGACT TTTTTTCGAAACTTATCGCGTATTTGCGCATCTTAACGTCATTACGTCAAAACAACGGAGAACAAGGCTTCGAGGA GCGCGACTTTATCCTGAGCCCGGTGGTTGGCTCAGATGGGAAATTCTTCAATTCCTTGGATGCTAGTTCACAGGAG CCTAAAGATGCGGATGCGAATGGAGCCTATCATATCGCTCTGAAGGGCCTGATGAACCTGCACGTTATCAATGAGA CAGATGATGAGTCCCTTGGAAAACCGTCTTGGAAGATTTCCAACAAGGATTGGTTAAATTTCGTATGGCAACGTCC AAGTCTGAAAGCTTAA SEQ ID NO: 113 ART28_Optimized2 ATGAAGAATTTAGCAAACTTCACCAACCTTTACAGCTTGCAAAAGACCCTGCGTTTCGAATTAAAGCCAATCGGCA AGACCCTGGACTGGATCATCAAAAAGGACCTTCTTAAACAGGACGAGATTTTGGCCGAAGACTACAAAATTGTAAA AAAGATCATCGACCGCTACCACAAAGACTTTATTGATTTGGCGTTTGAGTCCGCGTACTTACAGAAAAAGTCATCA GATAGCTTTACGGCTATCATGGAGGCGTCCATCCAGTCGTATTCCGAGCTGTATTTTATCAAGGAGAAAAGCGACC GTGATAAAAAAGCGATGGAAGAAATTTCAGGGATCATGCGCAAGGAGATTGTCGAATGTTTCACAGGGAAGTACAG CGAAGTTGTAAAGAAAAAGTTTGGTAACTTGTTTAAGAAGGAGTTGATCAAAGAGGATCTGCTGAACTTCTGTGAA CCTGACGAATTACCCATTATCCAAAAATTTGCAGACTTTACGACATATTTCACAGGGTTTCACGAGAATCGTGAGA ATATGTACTCAAATGAAGAAAAGGCAACTGCGATCGCTAACCGCTTGATCCGTGAAAACTTACCACGTTATCTTGA CAACCTGCGTATTATCCGCTCAATTCAGGGCCGCTACAAAGACTTTGGATGGAAGGACTTAGAGTCAAATTTAAAA CGTATTGACAAGAACTTACAGTATTCGGATTTTCTGACGGAGAATGGTTTCGTTTATACTTTTTCCCAAAAGGGAA TCGACCGCTACAACTTGATTTTGGGGGGCCAAAGTGTCGAGTCTGGAGAAAAGATCCAAGGACTGAATGAACTTAT CAACTTGTACCGCCAAAAGAATCAACTGGACCGCCGTCAGTTACCGAACTTGAAGGAGCTTTACAAACAGATCCTG AGCGACCGCACCCGTCATTCATTCGTGCCAGAGAAGTTCTCGTCGGACAAGGCACTGTTGCGCAGTTTGTTGGATT TCCACAAAGAGGTGATCCAGAATAAAAATCTTTTCGAGGAGAAACAAGTTAGCTTGCTGCAAGCTATCCGTGAAAC CCTTACCGATCTTAAATCGTTCGATCTGGACCGCATCTACCTTACAAACGATACGTCACTGACCCAGATTAGCAAT TTCGTATTTGGTGACTGGAGTAAGGTGAAGACAATTTTAGCCATCTACTTCGACGAGAACATCGCGAATCCTAAGG ACCGCCAGCGCCAATCTAACTCGTATCTTAAAGCAAAGGAAAATTGGCTGAAGAAGAATTACTATAGCATCCATGA ATTGAACGAGGCGATTTCCGTATACGGGAAGCATTCAGATGAAGAGCTGCCGAACACCAAAATCGAAGACTACTTC TCGGGGTTGCAAACTAAAGATGAGACTAAAAAGCCAATTGATGTTTTGGACGCCATTGTGAGTAAGTACGCGGACC TTGAGAGTCTGTTAACGAAGGAGTATCCGGAAGATAAAAACTTAAAAAGTGACAAAGGCTCAATCGAGAAGATCAA AAATTACTTGGATAGTATTAAGCTGCTTCAAAATTTCCTGAAGCCGCTTAAGCCTAAAAAAGTACAGGACGAAAAA GATTTGGGGTTTTATAATGACTTGGAACTTTACTTAGAATCACTGGAGTCCGCAAATTCACTTTATAACAAAGTCC GTAATTATCTGACCGGAAAAGAATACTCAGATGAGAAGATCAAGTTGAACTTCAAGAACTCAACTCTTTTAGACGG GTGGGACGAGAACAAGGAAACAAGTAACCTGTCTGTTATTTTTCGTGACACGAACAATTATTATCTTGGGATCCTT GACAAGCAAAACAACCGTATCTTCGAATCCATTCCCGAGATCCAGAGTGGCGAGGAGACCATCCAGAAGATGGTCT ATAAGTTGTTGCCCGGAGCGAATAACATGCTTCCGAAAGTCTTTTTCTCTGAGAAAGGCCTGCTTAAATTCAACCC CTCGGACGAGATTACGTCCCTGTACTCGGAGGGCCGCTTCAAAAAAGGGGATAAGTTTTCAATCAATTCTCTGCAC ACGTTAATTGACTTTTACAAAAAATCTTTAGCGGTGCATGAAGACTGGTCTGTCTTTAATTTCAAATTCGACGAAA CTAGTCATTATGAAGATATTTCACAGTTTTACCGTCAGGTAGAAAGCCAGGGATACAAAATCACATTTAAACCTAT CTCGAAAAAGTATATCGATACGTTAGTAGAGGACGGCAAGCTTTATCTTTTTCAGATTTATAATAAGGATTTCTCT CAAAACAAGAAGGGAGGCGGGAAGCCTAACCTTCACACCATTTATTTTAAGTCCTTATTTGAGAAAGAAAACCTTA AGGATGTTATCGTGAAACTGAACGGTCAGGCCGAGGTATTTTTCCGCAAAAAAAGTATTCATTACGATGAGAACAT CACACGTTACGGACACCATTCTGAGCTTCTGAAAGGGCGCTTCTCCTACCCAATCCTGAAAGACAAGCGTTTCACT GAGGATAAGTTCCAATTCCATTTCCCTATCACGTTGAATTTCAAATCCGGCGAAATCAAGCAGTTTAATGCGCGCG TTAACTCCTACCTTAAACATAATAAAGACGTCAAGATCATTGGCATTGATCGTGGCGAGCGCCACTTACTTTACCT TAGTCTGATTGATCAAGATGGAAAGATTCTTCGTCAAGAAAGTTTAAATTTGATCAAGAACGATCAAAACTTCAAA GCCATCAATTATCAGGAGAAATTACATAAAAAGGAAATCGAACGCGATCAGGCTCGCAAGTCTTGGGGATCGATTG AAAATATTAAGGAATTGAAGGAGGGCTATTTGAGCCAGGTGGTGCATACGATTAGCAAATTGATGGTCGAACACAA TGCGATCGTGGTTCTTGAAGATCTGAACTTTGGGTTCAAGCGTGGGCGTCAAAAGGTCGAACGTCAAGTGTATCAG AAATTCGAGAAGATGCTTATCGAGAAGTTAAATTTTTTGGTTTTTAAGGATAAAGAGATGGACGAACCGGGTGGGA TTTTGAAGGCTTATCAATTGACCGATAACTTCGTCTCATTCGAAAAGATGGGCAAACAGACGGGCTTTGTTTTTTA CGTCCCGGCATGGAACACGTCAAAGATTGATCCTAAGACTGGGTTTGTTAATTTTTTGCATCTTAACTACGAGAAT GTGAATCAGGCAAAGGAATTAATTGGTAAGTTTGATCAGATTCGCTATAATCAGGATCGTGATTGGTTCGAGTTCC AGGTTACTACGGACCAGTTTTTCACCAAGGAGAATGCGCCTGACACACGTACCTGGATCATCTGCTCTACCCCCAC CAAACGTTTCTACAGTAAACGTACTGTCAATGGAAGCGTCTCTACCATTGAAATCGACGTTAATCAAAAATTGAAA GAGTTGTTTAATGATTGTAACTATCAAGATGGGGAAGATTTAGTTGATCGCATCCTTGAAAAGGATTCGAAGGATT TCTTTTCAAAGTTAATTGCCTATCTGCGCATCTTGACTTCGTTACGCCAAAACAATGGCGAACAAGGCTTTGAAGA ACGTGATTTTATCCTGTCACCTGTTGTTGGTAGCGACGGTAAGTTTTTCAACTCGCTTGACGCTAGTTCTCAGGAA CCTAAAGATGCGGACGCTAACGGAGCGTATCATATCGCCCTTAAAGGTCTGATGAATCTGCACGTCATTAATGAGA CTGACGATGAATCATTAGGAAAACCCAGTTGGAAGATTAGTAATAAAGATTGGTTAAACTTTGTATGGCAACGCCC ATCTCTTAAAGCGTAA SEQ ID NO: 114 ART28_Optimized3 ATGAAGAACCTTGCTAATTTCACGAATCTTTATTCGCTGCAGAAGACGCTTCGCTTTGAGTTAAAGCCGATCGGTA AGACCTTGGATTGGATCATTAAGAAAGACTTGCTGAAGCAAGACGAGATTTTAGCCGAAGACTACAAGATTGTGAA GAAGATTATTGATCGTTATCATAAAGATTTTATTGATCTGGCGTTCGAAAGCGCATACTTACAGAAGAAAAGCTCC GATAGTTTCACTGCGATTATGGAAGCAAGCATTCAATCTTACTCGGAGTTATACTTTATCAAAGAAAAAAGTGACC GTGATAAGAAGGCAATGGAAGAAATTAGTGGGATCATGCGTAAAGAGATCGTTGAATGCTTCACGGGAAAGTATTC CGAGGTAGTTAAGAAGAAATTTGGGAATTTGTTCAAAAAAGAACTGATTAAAGAAGATTTATTGAATTTTTGTGAA CCGGATGAATTGCCGATCATCCAAAAGTTTGCCGACTTCACTACTTATTTCACGGGATTTCACGAAAATCGCGAGA ATATGTATTCCAACGAAGAGAAAGCAACTGCTATTGCGAACCGTCTTATCCGCGAAAATTTACCCCGTTACCTGGA CAATTTACGTATTATCCGCAGTATTCAGGGGCGCTACAAAGATTTCGGATGGAAGGACCTGGAGTCCAATTTAAAA CGTATCGACAAAAACTTACAATACAGTGATTTTCTTACCGAGAATGGATTTGTGTACACTTTCTCCCAGAAAGGGA TCGACCGTTACAACTTGATCCTGGGCGGCCAATCCGTAGAAAGTGGTGAGAAGATCCAGGGACTTAACGAATTGAT TAATCTTTACCGCCAAAAGAACCAATTAGATCGTCGTCAGCTTCCTAATCTGAAGGAGTTGTATAAACAGATTCTG TCCGATCGTACCCGCCACTCTTTTGTCCCCGAGAAATTCTCGTCTGACAAAGCACTGTTACGTAGTCTTCTGGACT TCCATAAAGAGGTGATCCAGAATAAAAATTTATTCGAAGAAAAGCAGGTCTCTCTTTTGCAAGCCATTCGCGAAAC CTTGACCGACTTAAAATCTTTCGATTTAGATCGTATTTATTTAACGAACGACACGTCGTTGACACAGATCTCGAAC TTCGTATTTGGCGATTGGTCCAAGGTGAAAACCATCCTTGCCATCTATTTTGATGAAAATATTGCCAATCCTAAAG ACCGCCAACGCCAGTCGAATAGTTATTTGAAGGCCAAAGAGAACTGGTTAAAAAAAAACTATTACTCCATCCACGA GCTGAACGAAGCTATTTCAGTATACGGAAAGCACAGTGACGAGGAGTTACCAAATACAAAGATCGAAGACTATTTC TCCGGTCTGCAAACAAAAGATGAGACTAAAAAACCGATTGATGTTTTAGATGCGATCGTCTCCAAGTATGCAGATC TGGAATCTCTTTTGACAAAGGAATATCCAGAAGACAAAAATTTGAAGTCTGATAAGGGTTCGATTGAAAAGATTAA GAATTATTTAGACTCGATCAAGCTTTTGCAAAATTTTCTTAAACCTTTGAAGCCAAAAAAGGTGCAGGATGAGAAA GATCTTGGCTTCTACAATGATTTAGAGCTGTACCTGGAATCGCTGGAATCGGCGAATAGCTTGTATAACAAGGTCC GCAATTATCTTACTGGAAAAGAATATTCCGATGAAAAAATTAAATTAAATTTCAAAAATAGTACTTTATTAGATGG GTGGGATGAGAATAAGGAAACCAGCAACCTGTCCGTCATTTTTCGTGACACAAACAATTACTATCTGGGAATCCTG GACAAACAGAACAATCGCATCTTTGAGTCAATCCCAGAGATCCAATCGGGCGAGGAGACTATTCAAAAGATGGTAT ACAAATTATTGCCCGGCGCAAACAATATGCTGCCCAAGGTTTTCTTTTCGGAGAAGGGGCTGCTGAAATTTAACCC GTCGGACGAAATTACCTCATTATATTCGGAGGGACGTTTCAAAAAAGGCGATAAGTTCTCAATTAATTCCTTACAC ACACTTATCGACTTCTACAAAAAAAGTCTTGCTGTTCATGAAGACTGGTCAGTATTTAACTTCAAGTTCGACGAAA CTTCTCACTATGAGGACATCAGTCAGTTTTACCGCCAAGTCGAATCACAGGGCTATAAAATCACATTTAAGCCCAT CAGTAAGAAGTATATCGATACCTTGGTAGAAGACGGCAAGTTATATTTGTTTCAGATTTATAATAAAGACTTTTCG CAAAACAAGAAAGGAGGAGGAAAACCGAATCTTCACACCATTTATTTTAAATCTCTTTTCGAAAAGGAAAATTTAA AGGACGTCATCGTAAAACTTAATGGGCAGGCGGAAGTCTTTTTCCGTAAGAAATCAATTCATTATGACGAGAATAT CACGCGCTATGGGCATCATTCCGAGCTTTTGAAGGGACGCTTCTCTTACCCGATCCTGAAGGACAAACGCTTCACT GAAGACAAATTTCAATTTCACTTCCCTATCACATTGAACTTTAAATCAGGAGAAATTAAGCAGTTTAATGCACGCG TAAACTCTTACCTTAAGCACAATAAAGATGTTAAAATCATTGGAATTGACCGTGGAGAGCGCCATTTACTTTACCT TAGCCTGATCGATCAAGACGGGAAGATCCTTCGCCAAGAGAGCCTTAACCTTATTAAGAATGATCAGAATTTCAAG GCCATTAATTATCAAGAGAAGTTACACAAGAAGGAGATTGAACGCGACCAAGCCCGTAAGTCCTGGGGTAGCATTG AAAACATTAAGGAGCTGAAGGAGGGATATTTGTCGCAAGTAGTGCATACTATCTCGAAGTTAATGGTGGAACATAA TGCAATCGTGGTCTTAGAGGATCTTAATTTCGGATTCAAACGTGGTCGTCAAAAGGTAGAACGTCAAGTCTACCAG AAATTTGAAAAGATGCTGATCGAAAAATTAAATTTCCTTGTGTTCAAGGACAAAGAAATGGACGAGCCAGGAGGAA TTCTGAAGGCGTACCAGCTGACTGATAATTTCGTTAGCTTCGAGAAGATGGGGAAACAAACAGGATTCGTGTTTTA TGTGCCGGCTTGGAATACTTCAAAAATCGACCCGAAAACTGGTTTCGTTAATTTTCTGCATTTGAATTACGAGAAC GTCAACCAGGCAAAGGAATTAATCGGAAAGTTTGACCAAATCCGTTACAATCAGGACCGTGATTGGTTCGAATTCC AAGTCACCACAGATCAGTTTTTTACAAAAGAAAACGCACCGGACACACGCACCTGGATTATCTGTTCAACCCCTAC TAAACGCTTCTATTCGAAACGTACCGTCAATGGTTCCGTGAGTACTATCGAGATTGACGTCAACCAGAAACTGAAA GAATTGTTCAATGATTGCAATTATCAAGATGGCGAAGACTTAGTGGATCGCATTCTGGAAAAAGACTCTAAGGACT TCTTTAGTAAGTTAATTGCGTACCTTCGTATCTTAACCTCGTTACGCCAGAACAACGGAGAACAGGGCTTCGAAGA ACGTGACTTCATCTTATCTCCCGTGGTCGGCTCAGACGGTAAGTTTTTTAATTCACTGGACGCGAGCTCTCAAGAG CCTAAAGATGCCGACGCTAATGGAGCCTATCATATTGCGTTAAAAGGACTGATGAACCTGCACGTGATCAACGAAA CCGACGATGAATCCTTGGGCAAGCCCAGCTGGAAGATCAGCAACAAAGACTGGTTGAATTTTGTATGGCAGCGCCC CTCATTGAAGGCGTAA SEQ ID NO: 115 ART29_WT ATGCAAGAGCATAAAAAAATATCGCATCTTACACACAGAAATTCAGTTCAAAAAACAATTAGGATGCAAC TGAATCCTGTAGGTAAAACAATGGATTATTTTCAAGCAAAGCAAATTCTTGAAAATGATGAAAAGCTTAA AGAGAACTATCAGAAAATCAAGGAAATAGCAGACAGGTTTTACAGAAATTTAAATGAGGATGTACTTTCA AAAACCAGGTTAGATAAATTAAAAGATTATACTGATATTTACTATCACTGTAATACGGATGCAGACCGAA AAAGACTTGATGAATGTGCATCGGAATTAAGGAAAGAAATCGTCAAAAATTTTAAGAATAGAGATGAGTA TAACAAACTATTCAATAAAAAGATGATTGAGATAGTTCTTCCCAAACATCTTAAAAATGAGGACGAAAAG GAAGTTGTAACCTCATTTAAAAATTTCACAACATACTTTACAGGTTTCTTCACTAACAGAAAAAATATGT ATTCGGACGGAGAAGAATCCACGGCAATCGCATATAGATGCATTAACGAAAATTTGCCTAAGCATCTTGA CAATGTCAAGGCCTTTGAAAAAGCAATTTCTAAACTATCCAAAAACGCAATTGATGATTTAGATACCACT TATTCCGGCTTATGTGGTACAAATTTGTATGACGTTTTTACAGTTGATTATTTTAACTTTTTGCTTCCAC AATCCGGAATTACCGAATATAACAAAATCATCGGCGGTTACACAACAAACGACGGTACAAAAGTTAAGGG TATTAACGAATATATAAATTTGTACAATCAACAAGTATCCAAACGGGATAAAATTCCTAATCTTAAAATT TTGTATAAACAAATTTTAAGTGAGAGTGAAAAGGTATCATTCATACCGCCAAAGTTTGAAGATGACAACG AACTTTTATCGGCTGTTTCAGAGTTTTACGCAAACGACGAAACCTTTGACGGGATGCCATTAAAAAAAGC AATTGATGAAACAAAGCTATTATTCGGCAATTTAGATAATCCCTCTCTTAATGGAATTTACATTCAAAAT GACCGATCCGTGACAAATCTGTCAAACAGTATGTTCGGTTCTTGGTCGGTAATAGAAGATTTATGGAACA AAAATTATGACTCCGTTAATTCAAACAGCAGAATCAAAGATATTCAAAAGCGTGAAGACAAAAGAAAAAA AGCATACAAAGCAGAAAAGAAACTTTCACTTTCATTTTTACAGGTTTTGATTTCCAATTCTGAAAATGAT GAAATCAGAGAAAAGTCTATCGTAGATTACTACAAGACTTCTTTAATGCAACTTACCGACAATTTGTCAG ACAAATACAACGAAGCAGCACCTCTGCTCAATGAGAATTACTCTAATGAAAAAGGTTTGAAAAATGACGA TAAATCTATTTCATTAATTAAAAATTTTCTTGATGCCATAAAAGAAATTGAAAAATTCATAAAGCCTTTG TCCGAAACTAATATTACAGGTGAGAAAAATGATTTGTTTTACAGTCAGTTCACACCATTACTTGATAATA TCAGCAGAATAGACATATTATATGATAAGGTCAGAAACTATGTTACACAAAAACCGTTTTCAACAGATAA AATCAAGCTTAACTTTGGCAATTCACAGCTATTAAACGGCTGGGATCGAAACAAAGAAAAAGACTGCGGT GCCGTTTGGCTTTGTAAAGATGAAAAATATTATCTTGCAATCATAGATAAAAGTAATAATAGTATTTTGG AAAATATTGATTTTCAAGACTGCGATGAAAGCGATTGTTATGAAAAGATAATTTACAAGCTTCTCCCCGG TCCAAATAAAATGCTTCCAAAAGTTTTCTTTTCAGAAAAGTGCAAGAAACTTTTGTCACCGTCAGACGAA ATACTTAAAATTTATAAAAGCGGCACTTTCAAAACAGGTGATAAGTTCAGCCTTGATGATTGCCATAAGT TAATTGATTTCTACAAAGAATCATTCAAAAAGTACCCAAATTGGTTAATTTATAACTTTAAATTCAAAAA AACAAACGAATATAACGATATCCGCGAATTTTATAATGATGTTGCTTTACAGGGATATAATATTTCAAAA ATGAAAATCCCGACATCATTTATTGACAAACTTGTAGATGAAGGAAAAATCTATCTTTTCCAACTCTACA ACAAAGACTTTTCACCGCATAGCAAGGGTACTCCTAATCTGCATACACTTTATTTTAAAATGTTGTTTGA TGAAAGGAATCTTGAAGATGTGGTGTACAGGCTTAACGGTGAGGCAGAAATGTTTTATCGTCCTGCAAGT ATAAAATATGACAAACCAACTCATCCCAAAAACACACCGATAAAAAACAAAAATACACTCAATGATAAAA AAACAAGCACTTTTCCTTATGACTTAATCAAAGATAAACGCTACACTAAATGGCAGTTTTCACTTCACTT CCCTATTACCATGAATTTTAAAGCTCCGGATAAGGCAATGATCAATGATGATGTCAGAAATCTGCTGAAA TCCTGCAACAACAATTTCATCATAGGAATTGACAGAGGCGAAAGAAACTTGCTTTATGTCAGCGTAATTG ACAGCAACGGTGCTATAATATATCAGCACTCACTCAATATTATCGGAAACAAGTTTAAAGAAAAAACATA CGAAACTAACTACCGGGAAAAACTTGCAACAAGAGAAAAAGAGCGTACGGAACAGCGCCGTAACTGGAAA GCAATTGAGAGTATAAAAGAACTCAAAGAGGGCTATATCAGTCAGGCTGTGCATGTTATATGTCAGCTTG TTGTCAAGTACGATGCAATCATCGTTATGGAAAAGCTGACTGACGGATTCAAACGAGGCAGAACAAAGTT TGAAAAACAGGTTTATCAGAAATTTGAAAAAATGCTGATTGACAAACTTAATTACTATGTTGACAAAAAG CTTGATCCCGACGAAGAAGGCGGTTTACTTCATGCCTATCAGCTTACGAACAAGCTTGAGAGCTTTGATA AGCTTGGCATGCAAAGCGGTTTTATTTTCTATGTTCGTCCTGATTTTACAAGCAAAATTGATCCCGTTAC CGGCTTTGTAAATTTGTTGTATCCTCAATATGAAAACATTGACAAAGCCAAAGATATGATTTCAAGATTT GACGAAATAAGATACAATGCCGGCGAGGACTTTTTTGAATTTGACATTGATTACGATGAGTTTCCAAAGA CTGCGTCTGACTATCGCAAAAAGTGGACAATCTGTACTAACGGCGAAAGGATTGAAGCTTTCAGAAATCC CGCAAACAATAACGAATGGAGTTACCGTACAATAATTCTTGCGGAAAAATTCAAAGAATTATTTGATAAC AATTCTATAAATTATCGTGATTCTGACGATTTGAAAGCTGAAATTCTTTCACAGACAAAGGGCAAATTTT TTGAGGATTTCTTTAAATTATTAAGACTTACCCTACAGATGCGAAACAGCAACCCTGAAACAGGCGAGGA CCGTATTCTTTCTCCCGTCAAGGACAAAAACGGTAATTTTTACGACAGTTCAAAATATGATGAAAAGAGC AAGCTTCCGTGTGATGCCGATGCAAACGGTGCGTACAACATTGCCCGCAAAGGTTTGTGGATTGTTGAAC AATTCAAAAAAGCCGATAATGTTTCAACTGTCGAACCGGTAATCCACAATGACCAATGGCTGAAATTTGT TCAGGAGAATGATATGGCGAATAATTAA SEQ ID NO: 116 ART29_Optimized1 ATGCAGGAACATAAAAAGATTTCACATCTGACGCACCGCAATTCAGTACAAAAGACTATTCGTATGCAATTAAATC CCGTGGGTAAAACCATGGATTACTTTCAAGCAAAGCAGATTTTGGAGAATGATGAGAAGTTAAAGGAAAATTATCA AAAAATCAAGGAAATCGCAGATCGCTTCTACCGTAATCTGAATGAAGACGTACTTTCTAAAACGCGCCTGGATAAA TTAAAAGACTATACCGACATTTATTACCACTGCAACACAGATGCGGACCGTAAGCGTCTGGACGAATGCGCCTCAG AGCTGCGCAAGGAAATCGTCAAAAACTTTAAAAACCGCGACGAGTATAATAAGCTTTTCAATAAGAAGATGATTGA AATCGTTCTGCCGAAACATTTAAAGAACGAGGATGAAAAAGAAGTCGTCACGTCTTTCAAAAATTTTACCACATAT TTCACCGGATTCTTTACGAATCGTAAGAATATGTATTCGGATGGGGAAGAATCAACCGCCATTGCCTACCGCTGCA TCAACGAGAACTTGCCAAAACATCTTGACAACGTCAAAGCGTTTGAGAAGGCCATTTCAAAGCTTTCTAAGAACGC AATCGATGACCTGGATACGACTTATTCAGGTTTGTGCGGTACGAACCTTTACGACGTATTCACTGTTGACTACTTT AATTTTTTGTTGCCACAGTCCGGCATCACAGAATACAATAAAATCATTGGCGGATATACAACGAACGATGGCACAA AAGTGAAGGGAATTAACGAATACATCAACCTTTACAATCAACAGGTATCAAAGCGCGATAAGATCCCTAACTTAAA GATCTTGTACAAGCAAATTTTGTCTGAAAGCGAGAAAGTAAGTTTCATTCCACCCAAGTTTGAAGATGACAACGAA TTATTGAGCGCTGTCTCTGAGTTTTATGCAAATGACGAAACGTTTGATGGCATGCCCCTTAAAAAGGCTATTGACG AAACGAAACTGTTATTCGGAAATCTTGATAATCCTTCTTTGAACGGCATTTATATTCAGAACGACCGTTCAGTAAC CAATCTGTCGAACTCTATGTTCGGCTCGTGGTCTGTAATCGAGGACCTGTGGAATAAGAATTATGACTCAGTCAAT TCAAATAGCCGTATCAAGGACATTCAGAAACGTGAGGACAAGCGTAAGAAGGCCTACAAAGCCGAAAAAAAACTGT CGTTGTCTTTTCTTCAAGTCTTGATTTCAAACTCTGAAAACGATGAGATCCGTGAGAAAAGTATTGTGGACTATTA CAAAACTTCGTTAATGCAGCTTACTGATAACCTGAGCGATAAATACAATGAGGCCGCTCCGTTACTGAACGAGAAT TACAGTAACGAGAAGGGACTTAAAAACGACGATAAATCTATTAGTCTTATCAAAAACTTCTTGGATGCCATTAAGG AGATCGAGAAATTTATTAAACCACTTAGCGAGACAAATATCACTGGCGAGAAAAATGACTTATTCTACTCGCAGTT CACCCCGCTTCTGGATAACATCAGCCGTATCGACATTCTGTATGATAAGGTGCGCAATTATGTAACGCAAAAGCCA TTTAGTACTGATAAAATCAAGCTTAACTTTGGGAATTCTCAATTGCTGAATGGATGGGATCGTAACAAAGAGAAGG ACTGTGGTGCGGTATGGTTGTGCAAAGATGAGAAATACTACCTGGCGATTATCGATAAATCCAACAATAGCATTCT TGAGAATATTGACTTTCAGGACTGTGATGAATCGGACTGCTACGAAAAGATTATCTATAAGCTGCTTCCAGGCCCA AACAAAATGTTGCCTAAAGTTTTTTTTTCTGAGAAGTGCAAAAAATTATTATCACCCTCTGATGAAATTCTGAAAA TCTACAAGAGCGGGACATTTAAAACCGGGGACAAATTCAGCCTGGACGACTGCCACAAATTGATCGACTTCTACAA GGAAAGTTTTAAAAAATACCCTAACTGGCTGATTTACAACTTCAAGTTCAAAAAAACTAATGAGTATAATGACATT CGTGAGTTCTACAACGATGTGGCCCTGCAAGGTTACAATATCAGCAAAATGAAGATCCCAACAAGCTTTATCGACA AGTTAGTGGACGAAGGCAAGATTTATTTATTTCAATTATACAATAAAGACTTTTCGCCGCACAGTAAAGGAACTCC CAATCTTCATACGTTGTACTTCAAAATGCTTTTTGATGAGCGCAATTTAGAGGATGTAGTCTATCGCCTGAACGGT GAGGCTGAGATGTTTTACCGTCCTGCCTCAATCAAATACGACAAGCCAACGCATCCCAAAAACACGCCCATTAAAA ATAAGAATACCCTTAATGACAAAAAGACATCCACCTTTCCTTACGATCTGATCAAAGATAAACGCTACACCAAGTG GCAATTTTCGTTACATTTCCCTATTACGATGAATTTTAAAGCACCCGACAAGGCAATGATCAACGACGACGTACGT AATCTTTTAAAGAGTTGTAATAACAACTTCATTATCGGAATTGACCGTGGGGAACGTAACCTTCTGTATGTGAGTG TCATTGATTCGAATGGCGCAATTATCTACCAACACTCATTGAACATTATTGGCAATAAGTTTAAAGAAAAGACTTA TGAGACAAACTATCGTGAGAAATTAGCGACACGCGAGAAGGAGCGTACGGAGCAACGCCGCAATTGGAAGGCTATC GAGAGTATCAAAGAACTTAAGGAGGGATACATCAGCCAAGCTGTTCACGTAATCTGCCAGCTGGTCGTGAAGTACG ATGCAATCATCGTCATGGAAAAGCTGACAGACGGATTTAAGCGTGGTCGCACCAAATTCGAAAAACAAGTCTATCA AAAGTTCGAAAAGATGTTAATCGACAAACTGAATTATTACGTTGACAAAAAACTGGATCCGGACGAGGAAGGGGGG TTGCTGCACGCCTACCAACTGACCAATAAATTGGAAAGTTTCGACAAGTTAGGTATGCAATCCGGCTTCATTTTCT ATGTACGCCCTGACTTTACCAGTAAGATTGATCCCGTTACTGGTTTCGTGAATCTTCTGTATCCCCAGTACGAAAA CATTGACAAAGCGAAGGATATGATTAGTCGTTTTGACGAAATTCGCTATAATGCGGGTGAGGATTTCTTTGAGTTC GATATCGATTACGATGAATTTCCGAAAACTGCCTCGGACTACCGTAAAAAATGGACTATCTGCACAAATGGGGAGC GTATTGAGGCGTTTCGTAACCCTGCGAATAACAATGAGTGGTCATACCGTACAATCATCCTGGCGGAAAAATTTAA GGAGTTGTTTGACAACAACTCGATCAACTATCGTGACTCCGACGACCTTAAGGCCGAGATCCTGTCCCAGACTAAA GGCAAGTTCTTCGAGGATTTTTTCAAACTGCTTCGCTTAACCCTGCAGATGCGTAACTCGAATCCCGAGACCGGTG AAGACCGTATCCTTTCTCCAGTCAAAGATAAAAACGGGAACTTTTATGATAGTTCCAAATACGATGAAAAAAGTAA GCTTCCATGCGATGCCGATGCTAACGGTGCGTATAACATCGCCCGCAAAGGGCTTTGGATCGTTGAGCAGTTCAAG AAAGCTGACAATGTGTCTACGGTAGAGCCCGTAATTCATAATGATCAATGGCTGAAATTTGTACAAGAAAATGATA TGGCGAATAATTAA SEQ ID NO: 117 ART29_Optimized2 ATGCAGGAGCATAAGAAAATTTCTCACTTGACCCATCGTAATTCGGTCCAAAAAACAATTCGCATGCAATTGAACC CTGTCGGTAAGACGATGGACTATTTTCAGGCCAAACAGATCTTGGAAAATGACGAGAAGTTGAAAGAAAACTACCA AAAGATTAAAGAGATTGCAGATCGTTTCTATCGTAATTTAAACGAAGATGTGTTATCCAAAACGCGTCTGGATAAA CTGAAAGACTACACAGATATTTATTACCATTGTAATACGGATGCTGATCGTAAACGCTTAGATGAGTGCGCATCGG AACTGCGCAAAGAAATTGTAAAAAATTTCAAAAACCGTGACGAGTATAACAAGCTTTTCAATAAGAAGATGATTGA GATTGTATTGCCGAAGCACCTGAAGAATGAAGATGAAAAAGAAGTAGTCACAAGTTTCAAGAATTTCACGACCTAC TTCACTGGCTTCTTCACCAACCGTAAGAATATGTACTCAGATGGTGAAGAATCCACGGCGATTGCTTACCGTTGCA TCAACGAAAATCTTCCAAAACACTTAGACAACGTAAAAGCATTTGAAAAAGCCATTAGTAAGTTATCGAAAAACGC AATCGATGATTTGGACACCACGTATTCGGGGTTGTGCGGGACCAATCTTTATGATGTATTTACAGTTGATTACTTC AACTTTCTGCTGCCGCAGAGCGGTATTACAGAATATAATAAAATTATCGGAGGTTATACGACAAACGATGGGACCA AAGTAAAAGGGATCAACGAGTATATCAACCTTTATAACCAGCAAGTCTCGAAGCGCGATAAAATTCCGAATCTTAA AATCTTGTATAAACAGATTCTGAGCGAGTCGGAGAAAGTTTCATTTATTCCGCCCAAGTTTGAAGATGACAATGAG CTTCTTTCAGCAGTGTCTGAGTTCTACGCCAACGACGAGACGTTCGATGGCATGCCTCTGAAGAAAGCTATTGATG AAACGAAGTTACTTTTCGGGAATTTAGATAACCCCAGTTTGAATGGAATTTACATTCAGAATGATCGCTCTGTTAC GAATTTAAGTAATAGTATGTTTGGTTCCTGGTCCGTCATCGAGGATCTGTGGAACAAAAACTACGACTCCGTCAAC TCAAATAGTCGTATCAAGGATATTCAAAAGCGCGAAGATAAGCGCAAAAAAGCATATAAGGCTGAAAAAAAATTAT CCTTATCGTTTTTGCAAGTCCTGATCAGCAACTCTGAGAATGATGAGATCCGCGAGAAGAGCATCGTTGATTACTA TAAAACTTCCTTAATGCAATTAACCGATAATCTTTCCGACAAATACAATGAGGCAGCGCCATTATTGAATGAGAAC TACAGTAACGAAAAGGGGCTGAAAAACGACGACAAATCGATCAGTTTAATCAAGAATTTCTTGGATGCAATCAAAG AAATCGAGAAATTTATCAAGCCGCTGAGTGAGACCAATATTACAGGGGAGAAGAACGACTTGTTCTATTCTCAGTT CACTCCTCTGCTTGACAATATCTCGCGTATTGATATTCTTTACGATAAAGTGCGTAATTATGTAACACAAAAACCG TTTTCGACAGATAAAATCAAACTTAATTTTGGCAATTCGCAGCTTTTAAATGGCTGGGACCGCAATAAAGAGAAGG ATTGCGGCGCGGTATGGTTGTGCAAGGATGAGAAGTACTATTTAGCTATTATTGACAAATCGAATAATAGTATCTT AGAGAATATTGACTTCCAAGATTGTGATGAGTCGGACTGTTATGAGAAGATCATCTATAAGCTTTTGCCTGGGCCG AACAAGATGTTACCTAAAGTTTTTTTCAGCGAGAAGTGCAAAAAGTTGCTTTCACCCAGTGATGAGATCTTAAAAA TTTATAAATCAGGTACATTCAAGACTGGTGATAAATTCAGTTTAGACGACTGCCATAAGTTAATCGACTTTTACAA AGAAAGTTTTAAGAAGTACCCGAACTGGCTGATTTACAACTTTAAATTCAAAAAAACTAACGAATACAACGACATC CGTGAGTTCTACAATGACGTAGCATTACAAGGGTACAATATCTCAAAAATGAAGATTCCCACAAGCTTCATCGATA AATTAGTAGACGAGGGAAAAATTTACCTTTTTCAATTATATAATAAAGATTTCTCACCGCATTCAAAAGGCACACC CAACCTGCACACATTGTACTTCAAAATGCTGTTCGACGAACGCAATCTGGAAGACGTTGTCTACCGCTTGAATGGG GAAGCAGAGATGTTCTATCGTCCAGCGTCAATTAAATATGATAAACCCACACATCCAAAAAACACTCCTATTAAAA ACAAAAATACGCTTAATGATAAAAAAACTAGCACCTTCCCGTACGACTTAATTAAGGACAAGCGTTACACAAAGTG GCAGTTTTCGTTGCACTTTCCGATCACCATGAACTTTAAAGCACCAGACAAAGCAATGATCAACGATGACGTTCGT AACTTGTTGAAAAGTTGCAATAACAATTTCATTATTGGTATCGATCGCGGGGAGCGTAATCTGCTGTATGTATCCG TCATCGACTCAAATGGCGCCATCATCTATCAACACTCATTGAATATTATCGGTAACAAGTTCAAGGAGAAAACTTA CGAAACCAATTACCGCGAGAAGTTAGCTACTCGCGAAAAAGAACGTACCGAGCAACGCCGCAACTGGAAGGCCATT GAGAGCATTAAAGAACTGAAAGAGGGCTACATTTCACAGGCGGTACACGTGATCTGCCAGCTTGTTGTCAAGTACG ACGCCATCATTGTTATGGAAAAATTAACTGACGGTTTTAAGCGCGGCCGCACCAAGTTTGAGAAGCAGGTTTACCA GAAATTCGAAAAGATGTTAATCGATAAACTTAACTACTACGTAGACAAAAAGTTGGATCCAGACGAAGAGGGCGGA CTGCTTCATGCGTATCAATTAACGAATAAGTTGGAGTCCTTTGATAAGCTTGGAATGCAAAGTGGTTTCATCTTCT ATGTCCGTCCGGATTTTACCAGCAAAATTGACCCGGTTACCGGGTTTGTTAATCTGTTATATCCCCAGTATGAGAA TATCGATAAGGCGAAGGATATGATTTCCCGCTTTGATGAGATCCGTTACAATGCCGGAGAGGACTTCTTCGAGTTT GACATCGATTATGATGAATTCCCTAAAACTGCTAGTGATTATCGCAAAAAGTGGACTATCTGCACCAATGGGGAAC GTATTGAGGCTTTTCGTAACCCCGCTAACAACAATGAATGGAGCTACCGTACCATCATCTTAGCTGAAAAATTCAA GGAACTGTTCGATAACAACTCGATTAACTATCGTGATTCCGACGATTTGAAAGCTGAGATTCTTTCTCAGACAAAA GGGAAGTTTTTCGAAGATTTCTTTAAGTTGCTGCGCCTTACATTACAGATGCGCAATAGCAACCCTGAAACCGGAG AGGATCGCATTCTTAGTCCAGTGAAGGATAAAAACGGCAACTTTTATGATTCGAGCAAATATGATGAGAAATCCAA GTTGCCATGTGACGCAGATGCTAACGGTGCTTATAACATCGCTCGCAAAGGCTTATGGATTGTAGAGCAATTTAAA AAAGCGGACAACGTTTCGACAGTTGAACCGGTGATTCACAATGACCAGTGGCTTAAATTCGTGCAGGAAAATGATA TGGCAAACAATTAA SEQ ID NO: 118 ART29_Optimized3 ATGCAGGAACATAAAAAAATCAGTCACCTGACACATCGTAACTCCGTTCAGAAAACTATTCGTATGCAATTGAATC CCGTAGGTAAGACCATGGATTACTTTCAGGCCAAGCAAATTTTAGAAAACGATGAAAAGTTAAAAGAAAATTATCA GAAAATCAAAGAGATTGCTGACCGTTTCTACCGCAATTTAAACGAGGATGTTCTGTCAAAGACTCGTTTAGACAAA CTTAAAGACTATACAGACATCTATTACCACTGCAATACGGACGCAGACCGTAAGCGTCTGGACGAGTGCGCGAGCG AGCTTCGCAAGGAGATTGTTAAAAATTTTAAGAACCGTGACGAATATAATAAGTIGTTTAATAAAAAAATGATTGA GATTGTCCTTCCCAAGCACTTAAAGAACGAGGACGAGAAGGAAGTAGTAACATCATTTAAAAATTTCACGACTTAC TTTACTGGGTTCTTCACTAACCGCAAGAATATGTATTCTGATGGGGAGGAGTCTACTGCTATCGCATATCGCTGTA TTAACGAGAATCTGCCAAAACATCTTGACAACGTCAAAGCATTTGAAAAAGCTATCTCGAAGCTGTCCAAAAATGC TATTGACGACCTGGACACTACGTACTCAGGTTTGTGTGGGACGAACCTTTACGACGTCTTTACGGTGGACTACTTT AATTTCTTACTGCCGCAGTCAGGGATTACGGAATACAATAAAATTATTGGAGGCTACACGACAAACGATGGAACAA AAGTGAAGGGAATTAATGAATATATCAATCTGTATAATCAGCAGGTTAGTAAGCGTGATAAAATTCCAAACCTTAA GATCCTTTATAAACAAATTTTGTCGGAGAGCGAGAAAGTAAGTTTTATTCCCCCGAAATTTGAAGACGATAACGAA TTATTATCTGCAGTTTCAGAGTTCTACGCTAACGACGAGACGTTCGACGGTATGCCGTTAAAAAAGGCCATCGACG AAACTAAGCTTTTGTTTGGTAACCTGGATAATCCCAGTCTGAATGGTATCTACATCCAGAATGATCGTAGTGTCAC AAATTTAAGTAACAGTATGTTCGGAAGCTGGTCTGTAATTGAGGACTTGTGGAACAAGAATTACGACTCGGTGAAT TCCAATTCTCGCATCAAGGATATTCAAAAACGCGAAGATAAACGTAAGAAGGCGTATAAGGCTGAGAAGAAACTTT CTTTAAGTTTCCTGCAGGTGTTGATTTCTAACTCGGAAAACGACGAGATCCGTGAAAAGTCGATTGTCGATTACTA CAAGACCAGTTTGATGCAATTAACGGATAATTTGTCAGACAAATACAATGAGGCAGCACCATTGCTTAACGAAAAC TATTCAAATGAGAAGGGATTGAAAAACGACGACAAGTCCATCTCACTTATCAAAAACTTCCTGGACGCCATCAAAG AGATTGAAAAATTTATCAAGCCATTAAGCGAAACAAATATCACAGGCGAAAAAAACGACCTGTTCTATTCGCAATT CACACCGCTGCTGGATAACATCTCACGTATCGATATCCTGTATGATAAAGTTCGCAATTATGTGACGCAGAAGCCC TTTAGCACCGATAAGATCAAATTAAACTTCGGAAACTCGCAATTACTGAACGGATGGGACCGCAACAAAGAGAAGG ATTGTGGTGCAGTCTGGCTTTGCAAAGATGAGAAGTATTACCTTGCTATCATCGATAAGTCTAACAATAGTATCTT GGAGAACATCGATTTTCAGGATTGCGACGAATCTGACTGTTATGAGAAAATCATCTATAAACTTCTTCCGGGCCCC AATAAGATGCTGCCGAAGGTATTCTTCTCTGAAAAATGTAAAAAGTTACTGTCACCCAGCGACGAAATCTTGAAGA TTTATAAAAGTGGAACATTTAAGACTGGTGATAAATTTTCACTGGACGACTGTCACAAACTTATTGACTTTTACAA GGAATCATTTAAGAAGTATCCAAACTGGCTTATCTATAACTTCAAATTCAAAAAGACAAACGAGTATAATGATATT CGCGAGTTTTACAACGACGTCGCACTTCAAGGGTACAATATCAGCAAGATGAAAATTCCGACATCATTTATTGATA AGCTTGTCGACGAAGGTAAGATCTACCTGTTTCAGTTGTACAACAAAGATTTTAGCCCACACTCTAAGGGAACTCC GAATTTACACACGCTTTACTTTAAGATGCTTTTCGACGAGCGCAACCTTGAGGACGTGGTTTATCGTTTAAACGGT GAGGCTGAAATGTTCTATCGCCCGGCTTCTATTAAATATGATAAACCGACACATCCGAAAAACACTCCCATTAAAA ATAAAAATACGCTTAATGATAAGAAGACATCCACATTCCCATACGACCTTATCAAAGACAAGCGCTATACAAAATG GCAGTTTTCCCTTCATTTTCCCATTACCATGAACTTCAAAGCGCCGGATAAGGCAATGATTAACGACGACGTGCGT AATTTATTGAAATCATGTAATAATAACTTTATTATCGGGATCGACCGTGGTGAGCGTAATCTGTTGTATGTAAGTG TAATCGACTCGAACGGGGCAATCATTTATCAACATAGCTTGAACATCATCGGGAATAAATTTAAGGAAAAAACGTA TGAAACAAATTATCGCGAGAAGTTGGCAACCCGTGAGAAAGAGCGCACAGAGCAGCGCCGCAACTGGAAAGCTATT GAGTCTATCAAAGAATTGAAAGAGGGCTACATCTCACAAGCGGTCCACGTTATCTGCCAACTGGTTGTGAAGTACG ATGCTATCATCGTCATGGAAAAGCTGACGGATGGGTTTAAACGCGGTCGTACCAAGTTCGAGAAGCAAGTCTACCA AAAATTTGAAAAAATGTTGATTGACAAACTTAATTATTATGTAGATAAGAAGTTGGATCCCGATGAAGAGGGTGGT CTGTTACACGCTTATCAATTAACCAATAAGTTAGAATCGTTCGACAAGCTTGGTATGCAAAGTGGGTTCATCTTCT ACGTTCGCCCCGACTTCACGTCCAAGATTGATCCTGTCACTGGGTTTGTAAACTTACTTTATCCACAATACGAAAA CATTGATAAAGCTAAAGACATGATTAGTCGTTTTGATGAAATCCGTTACAATGCTGGTGAAGATTTCTTCGAGTTC GATATCGACTACGATGAGTTTCCCAAGACAGCCAGTGACTACCGCAAAAAGTGGACCATCTGTACGAACGGCGAGC GTATCGAAGCATTTCGCAACCCTGCGAATAACAATGAATGGAGCTATCGCACGATCATCCTTGCTGAGAAATTTAA AGAATTGTTTGACAACAACTCAATCAACTACCGTGATTCAGATGACCTGAAGGCGGAAATTCTGTCTCAGACAAAA GGGAAGTTTTTCGAGGATTTTTTTAAGCTTCTTCGCCTGACACTGCAGATGCGTAATAGCAACCCGGAGACAGGGG AAGACCGTATTCTGTCTCCTGTTAAGGATAAAAATGGCAACTTTTACGACAGTTCAAAGTACGATGAAAAAAGCAA GCTTCCATGTGATGCTGATGCAAATGGAGCCTACAACATCGCCCGTAAAGGATTGTGGATTGTTGAGCAGTTCAAA AAGGCGGACAATGTATCGACAGTAGAGCCCGTAATCCACAACGATCAGTGGTTGAAGTTTGTCCAAGAAAACGACA TGGCAAACAATTAA SEQ ID NO: 119 ART30_WT ATGCAAGAGCATAAAAAAATATCGCATCTTACACACAGAAATTCAGTTCAAAAAACAATTAGGATGCAAC TGAATCCTGTAGGTAAAACAATGGATTATTTTCAAGCAAAGCAAATTCTTGAGAATGATGAAAAGCTTAA AGAGGACTATCAGAAAATCAAGGAAATAGCAGACAGGTTTTACAGAAATTTGAATGAGGATGTACTTTCA AAAACCGGGTTAGATAAATTAAAAGATTATGCTGATATTTACTATCACTGTAATACGGATGCAGACCGAA AAAGACTTAATGAATGTGCATCGGAATTAAGGAAAGAAATCGTCAAAAATTTTAAGAATAGAGATGAGTA TAACAAACTATTCAATAAAAAGATGATTGAGATAGTTCTTCCCAAACATCTTAAAAATGAGGACGAAAAG GAAGTTGTAGCCTCATTTAAAAATTTCACAACATACTTTACAGGTTTCTTCACTAACAGAAAAAATATGT ATTCGGACGGAGAAGAATCCACGGCAATCGCATATAGATGCATTAACGAAAATTTGCCTAAGCATCTTGA CAATGTCAAGGTCTTTGAAAAAGCAATTTCTAAACTATCCAAAAATGCAATTGATGATTTAGGTGCCACT TATTCCGGCTTATGCGGTACAAATTTGTATGATGTTTTTACAGTTGATTATTTTAACTTTTTGCTTCCAC AATCCGGAATTACCGAATATAACAAAATCATCGGCGGTTACACAACAAGCGACGGTACAAAAGTTAAGGG TATTAACGAATATATAAATTTGTACAATCAACAAGTATCCAAACGGGATAAAATTCCTAATCTTAAAATT TTGTATAAACAAATTTTAAGTGAGAGTGAAAAGGTATCATTCATACCGCCTAAGTTTGAAGATGACAACG AACTTTTATCGGCTGTTTCAGAGTTTTACGCAAACGACGAAACCTTTGACGGGATGCCATTAAAAAAAGC AATTGATGAAACAAAGCTATTATTCGGCAATTTAGATAATTCCTCTCTTAATGGAATTTACATTCAAAAT GACCGATCCGTGACAAATCTGTCAAACAGTATGTTCGGTTCTTGGTCAGTAATAGAAGATTTATGGAACA AAAATTATGACTCCGTTAATTCAAACAGCAGAATCAAAGATATTCAAAAGCGTGAAGACAAAAGAAAAAA AGCATACAAAGCAGAAAAGAAACTTTCACTTTCATTTTTACAGGTTTTGATTTCCAATTCCGAAAATGAT GAAATCAGAGAAAAGTCTATCGTAGATTACTACAAGACTTCTTTAATGCAACTTACCGACAATTTATCAG ACAAATACAAAGAAGCAGCACCTCTGTTCAGTGAAAATTACGATAATGAAAAAGGTTTGAAAAATGACGA TAAATCTATTTCATTAATTAAAAATTTTCTTGATGCCATAAAAGAAATTGAAAAATTCATCAAGCCTTTG TCCGAAACTAATATTACAGGTGAGAAAAATGATTTGTTTTACAGTCAGTTCACACCATTACTTGATAATA TCAGCAGAATAGACATATTATATGATAAGGTCAGAAACTATGTTACACAAAAACCGTTTTCAACCGATAA AATCAAACTTAACTTTGGTAATTCACAGCTATTAAACGGCTGGGATAAAGACAAAGAAAGAGAGTACGGA GCCGTTTTGCTTTGTAAAGATGAAAAGTATTATCTTGCAATCATAGATAAAAGTAATAATAGTATTTTGG AAAATATTGATTTTCAAGACTGCAATGAAAGCGATTATTATGAAAAGATAGTTTATAAACTTCTGACTAA AATAAATGGAAATCTCCCGCGTGTTTTCTTTTCAGAAAAGCGCAAGAAACTTTTGTCACCATCAGACGAA ATACTTAAAATTTATAAAAGCGGCACTTTCAAAAAAGGTGATAAGTTCAGCCTTGATGATTGCCATAAGT TAATTGATTTCTACAAAGAATCATTCAAAAAGTACCCAAATTGGTTAATTTATAACTTTAAATTTAAAAA CACAAACGAATATAATGATATCAGCGAATTTTATAATGATGTTGCTTCACAGGGATATAATATTTCAAAA ATGAAAATCCCGACAACATTTATTGACAAACTTGTAGATGAAGGAAAAATCTATCTTTTCCAACTCTACA ACAAAGACTTTTCACCGCATAGCAAGGGTACTCCTAATCTGCATACACTTTATTTTAAAATGTTGTTTGA TGAAAGAAATCTTGAAGATGTGGTGTACAAGCTTAACGGTGAGGCAGAAATGTTTTATCGTCCTGCAAGT ATAAAATATGACAAACCAACTCATCCCAAAAACACACCGATAAAAAATAAAAATACACTCAATGATAAAA AAGCAAGCACTTTTCCTTATGACTTAATTAAAGATAAACGCTACACTAAATGGCAGTTTTCACTTCACTT CCCTATTACCATGAATTTTAAAGCTCCGGATAAGGCAATGATCAATGATGATGTCAGAAATCTACTGAAA TCCTGCAACAACAATTTCATCATAGGAATTGACAGAGGCGAAAGAAACTTGCTTTATGTCAGCGTAATTG ACAGCAACGGTGCTATAATATATCAGCACTCACTCAATATTATCGGAAACAAGTTTAAAGGAAAAACATA CGAAACTAACTACCGGGAAAAACTTGCAACAAGAGAAAAAGATCGTACGGAACAGCGCCGTAACTGGAAA GCAATTGAGAGTATAAAAGAACTCAAAGAGGGATATATCAGTCAGGCTGTGCATGTTATATGTCAGCTTG TTGTCAAGTACGATGCAATCATCGTTATGGAAAAGCTGACTGACGGATTCAAACGAGGTAGAACAAAGTT TGAAAAACAGGTTTATCAGAAATTTGAAAAAATGCTGATTGACAAACTTAATTACTATGTTGACAAAAAG CTTGATCCCGACGAAGAAGGCGGTTTACTTCATGCCTACCAGCTTACGAACAAGCTTGAGAGCTTTGATA AGCTTGGTACGCAAAGCGGTTTTATTTTCTATGTTCGTCCTGATTTTACAAGCAAAATTGATCCCGTTAC CGGCTTTGTAAATTTGTTGTATCCTCGATATGAAAACATTGACAAAGCCAAAGATATGATTTCAAGATTT GACGATATAAGATACAATGCCGGCGAGGACTTTTTTGAATTTGACATTGATTACGATAAGTTTCCAAAGA CTGCGTCTGACTATCGCAAAAAGTGGACAATCTGTACTAACGGCGAAAGGATTGAAGCTTTCAGAAATCC CGCAAACAATAACGAATGGAGTTATCGTACAATAATTCTTGCAGAAAAATTCAAAGAATTATTTGATAAC AATTCTATAAATTATCGTGATTCTGACGATTTGAAAGCTGAAATTCTTTCACAGACAAAGGGCAAATTTT TTGAGGATTTCTTCAAATTATTAAGACTTACCCTACAGATGCGAAACAGTAACCCTGAAACAGGCGAGGA CCGTATCCTTTCCCCCGTCAAGGACAAAAACGGCAATTTTTACGACAGTTCAAAATATGACGAAAAGAGC AAGCTTCCGTGTGATGCCGATGCAAACGGTGCGTACAACATTGCCCGCAAAGGTTTGTGGATTGTTGAAC AATTCAAAAAAGCCGATAATGTTTCAACTGTCGAACCGGTAATCCACAATGACAAATGGCTGAAATTTGT TCAGGAGAATGATATGGCGAATAATTAA SEQ ID NO: 120 ART30_Optimized1 ATGCAAGAGCATAAGAAAATTTCCCACTTAACCCATCGTAATTCCGTTCAAAAGACTATTCGCATGCAACTTAACC CTGTGGGTAAGACAATGGACTACTTCCAGGCTAAACAAATTCTTGAAAATGACGAAAAGTTAAAAGAAGACTATCA GAAAATTAAAGAAATCGCTGACCGTTTTTACCGTAACCTTAATGAAGACGTATTAAGCAAGACCGGTTTGGATAAA CTGAAGGACTATGCCGACATCTACTATCACTGTAACACTGACGCTGACCGTAAGCGTTTGAATGAGTGCGCTTCAG AACTTCGTAAAGAAATCGTCAAAAATTTCAAAAATCGTGACGAATATAACAAACTTTTTAATAAAAAGATGATTGA AATCGTCTTGCCCAAACACCTGAAGAATGAGGACGAGAAAGAAGTAGTAGCTTCCTTCAAAAACTTTACAACGTAT TTTACCGGTTTCTTTACCAATCGTAAAAACATGTACTCCGACGGAGAGGAATCCACGGCCATCGCCTACCGCTGTA TTAATGAAAACTTACCTAAGCATCTTGACAACGTCAAAGTATTCGAGAAGGCGATCTCCAAACTGTCGAAAAACGC TATTGATGATTTAGGCGCGACCTACAGCGGTTTATGTGGGACAAACTTGTATGACGTGTTTACAGTGGACTATTTT AACTTTTTGCTTCCGCAATCGGGGATTACGGAATACAATAAGATTATCGGTGGATATACTACATCGGACGGGACGA AAGTTAAGGGTATCAATGAGTACATTAATCTTTACAATCAGCAAGTATCCAAACGTGACAAGATCCCTAACTTAAA GATCTTATACAAACAAATCTTGTCAGAATCGGAAAAAGTTTCATTCATTCCTCCCAAATTTGAGGACGACAATGAA CTTCTTTCAGCAGTTAGCGAGTTCTATGCCAACGATGAGACATTTGACGGTATGCCTTTGAAGAAAGCGATCGACG AAACGAAGTTACTTTTCGGGAATTTAGATAATTCGTCCTTGAACGGAATTTACATTCAAAACGACCGCAGCGTGAC CAATCTGTCGAACTCTATGTTCGGCTCATGGAGCGTCATTGAAGATCTGTGGAATAAAAATTATGATTCGGTAAAC AGCAACTCGCGCATTAAAGACATTCAAAAACGTGAGGACAAACGTAAGAAGGCGTATAAGGCTGAGAAGAAACTGT CGTTATCTTTTTTGCAGGTACTGATTAGTAATTCAGAGAACGATGAAATTCGTGAAAAGTCGATCGTTGATTATTA CAAAACATCATTAATGCAGCTGACCGATAATCTTTCCGATAAATACAAGGAGGCAGCGCCGCTGTTTAGCGAAAAT TACGACAACGAGAAGGGCTTAAAAAACGACGATAAGTCTATTTCATTAATCAAGAATTTTTTAGACGCTATCAAGG AAATCGAAAAATTCATTAAGCCTCTTTCTGAGACAAACATCACTGGAGAGAAGAACGACTTGTTCTACAGTCAATT TACCCCTTTGTTAGATAATATTAGCCGTATCGATATTTTATACGATAAGGTACGCAATTATGTTACGCAAAAGCCT TTCTCAACGGATAAAATCAAGCTGAACTTTGGTAATAGTCAGCTTTTAAACGGCTGGGATAAGGATAAGGAACGCG AGTATGGGGCCGTGTTGTTATGTAAGGACGAGAAATATTATTTGGCCATCATTGACAAATCCAACAATTCCATTCT GGAAAATATCGACTTTCAAGATTGTAACGAGTCTGACTATTATGAGAAGATCGTATATAAACTGTTGACGAAGATC AACGGTAACTTACCCCGCGTATTTTTTTCAGAAAAACGCAAAAAACTTCTGAGCCCCAGTGATGAAATTCTGAAGA TTTACAAGTCTGGGACTTTTAAGAAGGGCGATAAGTTCTCATTAGACGATTGCCACAAACTTATCGACTTTTATAA AGAGAGTTTTAAGAAGTATCCGAACTGGTTAATTTACAACTTCAAGTTTAAAAACACAAACGAGTACAATGACATC TCGGAATTCTATAATGATGTTGCCTCTCAGGGGTATAACATTAGCAAGATGAAAATCCCCACAACATTTATCGATA AATTGGTTGATGAAGGGAAAATCTACTTATTCCAGTTATACAACAAGGATTTTTCTCCGCATTCCAAGGGGACCCC TAATTTGCACACCTTATATTTTAAGATGTTGTTCGACGAACGCAATCTTGAGGACGTGGTTTACAAATTGAACGGA GAAGCCGAAATGTTTTACCGTCCGGCTAGCATTAAGTACGATAAGCCTACTCATCCAAAGAACACCCCAATTAAAA ACAAGAATACATTGAACGATAAGAAGGCGAGTACTTTTCCGTACGATCTTATTAAAGATAAGCGCTACACCAAATG GCAGTTCTCACTGCATTTCCCTATTACCATGAACTTTAAAGCTCCTGATAAGGCTATGATCAACGATGACGTTCGC AATTTATTGAAAAGCTGCAATAATAATTTTATTATTGGTATCGACCGCGGTGAGCGTAACTTGCTGTATGTGTCTG TGATCGACTCAAATGGTGCTATCATCTACCAACACTCTCTGAATATCATCGGAAATAAATTCAAGGGTAAGACGTA TGAAACCAACTACCGTGAAAAGTTGGCTACCCGTGAAAAGGACCGCACGGAGCAACGCCGTAATTGGAAAGCAATC GAAAGTATTAAGGAGTTGAAAGAAGGATATATCAGTCAAGCGGTCCATGTGATTTGTCAACTGGTAGTGAAGTACG ACGCCATCATCGTCATGGAAAAGCTTACCGATGGTTTCAAACGTGGACGCACCAAGTTTGAGAAGCAAGTCTACCA GAAGTTTGAGAAGATGTTGATTGATAAGCTGAACTATTATGTAGACAAGAAGCTTGATCCAGATGAAGAAGGCGGG CTTTTACACGCGTATCAACTGACCAACAAGTTGGAGAGCTTCGACAAATTGGGAACTCAGTCCGGCTTCATTTTCT ATGTCCGCCCCGATTTTACCTCTAAGATCGATCCAGTAACTGGCTTTGTGAATTTACTGTATCCACGCTATGAAAA TATCGATAAGGCTAAGGACATGATTTCCCGCTTCGATGATATTCGTTACAACGCGGGGGAGGACTTCTTTGAATTC GATATTGATTATGATAAGTTTCCAAAAACAGCATCGGATTATCGCAAAAAGTGGACCATTTGTACAAACGGAGAAC GTATTGAAGCCTTTCGTAACCCGGCGAACAATAACGAATGGAGTTATCGTACAATTATCTTGGCGGAAAAGTTCAA AGAATTATTTGATAACAACTCAATTAATTATCGCGATTCGGATGACCTTAAAGCAGAGATTTTAAGCCAAACAAAA GGGAAGTTCTTCGAAGATTTCTTCAAGCTGCTTCGCCTTACCTTGCAAATGCGTAACTCAAATCCAGAGACCGGAG AGGACCGCATTTTGTCACCAGTGAAAGATAAAAATGGAAACTTTTACGATTCGAGCAAGTACGATGAAAAGAGTAA GTTACCTTGTGATGCGGATGCAAATGGTGCATATAACATTGCTCGCAAAGGGTTGTGGATCGTGGAACAATTCAAA AAAGCAGATAATGTAAGCACCGTAGAACCGGTGATTCACAACGATAAGTGGCTTAAGTTTGTACAGGAAAATGACA TGGCTAATAATTAA SEQ ID NO: 121 ART30_Optimized2 ATGCAAGAGCATAAGAAAATCAGCCACTTAACACATCGCAACAGCGTCCAAAAGACGATTCGCATGCAATTAAATC CTGTGGGCAAGACTATGGACTATTTTCAGGCCAAGCAGATCTTAGAGAACGACGAGAAACTGAAAGAAGATTACCA GAAAATTAAGGAAATCGCGGACCGTTTTTATCGTAACCTGAACGAAGACGTACTTTCTAAGACTGGTCTGGATAAG TTAAAGGACTATGCGGACATCTATTATCACTGCAATACAGATGCGGATCGCAAACGCTTGAACGAATGTGCGTCGG AATTACGTAAGGAGATTGTTAAAAATTTCAAAAATCGCGATGAATATAATAAGTTGTTCAACAAGAAAATGATCGA AATCGTATTGCCAAAGCATCTTAAAAATGAGGACGAAAAAGAGGTGGTCGCCTCCTTCAAGAACTTTACCACGTAC TTCACAGGCTTCTTTACCAATCGCAAGAACATGTATAGCGACGGCGAGGAATCGACTGCCATTGCTTACCGTTGTA TCAACGAGAACCTTCCAAAGCATCTTGATAACGTAAAAGTTTTCGAGAAAGCCATCAGTAAATTATCGAAGAATGC GATCGATGACCTGGGGGCGACCTATTCCGGACTGTGTGGGACTAATCTGTATGATGTCTTCACAGTGGACTACTTT AATTTTTTATTGCCTCAGAGCGGTATCACTGAATATAATAAAATTATCGGGGGTTACACAACGTCGGACGGGACAA AAGTAAAAGGGATTAATGAATATATTAACCTTTACAATCAACAAGTAAGTAAACGCGATAAGATTCCCAACCTGAA GATCCTGTACAAGCAGATTTTGAGTGAATCGGAAAAAGTTAGTTTCATTCCACCGAAATTCGAAGACGATAATGAG CTGCTTTCAGCGGTATCCGAGTTCTACGCGAACGATGAGACATTTGATGGCATGCCGCTTAAAAAGGCCATCGACG AGACTAAATTATTGTTCGGAAACCTTGATAATAGCTCACTGAACGGTATCTACATTCAAAATGACCGCTCCGTCAC CAACCTGTCCAATTCAATGTTCGGTAGCTGGTCAGTTATCGAAGACTTATGGAATAAGAACTACGATTCTGTTAAT TCTAATAGCCGCATCAAAGATATCCAGAAGCGTGAAGATAAGCGCAAAAAAGCTTATAAGGCGGAGAAAAAGTTAT CATTAAGCTTTTTGCAAGTTTTGATCAGTAACTCCGAAAACGACGAAATCCGTGAAAAATCGATTGTGGACTACTA TAAAACTAGTTTAATGCAACTGACTGATAACCTGTCAGACAAGTATAAAGAGGCGGCTCCTCTTTTCTCGGAGAAC TATGACAATGAAAAAGGCTTGAAGAACGATGACAAATCAATCTCTTTGATCAAGAATTTTCTGGACGCAATCAAGG AGATTGAGAAGTTCATCAAACCCCTGTCAGAGACTAATATTACAGGAGAGAAGAATGACTTATTTTATTCGCAATT TACTCCATTGCTGGACAACATCTCGCGTATTGACATTTTGTACGATAAAGTTCGCAATTATGTAACACAAAAGCCT TTTTCCACGGATAAAATCAAGCTTAACTTTGGGAACTCTCAATTGCTTAACGGTTGGGACAAGGATAAGGAACGCG AGTACGGTGCCGTCCTTTTGTGCAAGGATGAAAAATACTATCTGGCCATTATTGATAAGTCCAATAACTCGATTTT AGAAAACATCGACTTCCAAGATTGCAATGAAAGCGATTACTATGAAAAAATCGTCTATAAATTATTAACTAAAATC AATGGAAATCTGCCGCGCGTGTTTTTTAGTGAAAAACGCAAAAAACTTCTTTCACCGAGCGACGAGATTTTAAAGA TCTACAAGTCCGGGACCTTCAAAAAGGGCGATAAGTTCAGTTTGGACGATTGTCACAAGCTGATCGATTTCTATAA GGAGTCATTTAAGAAATATCCGAATTGGTTGATTTATAACTTCAAGTTCAAGAACACAAACGAGTACAATGATATC TCGGAATTTTACAACGACGTGGCATCGCAGGGTTATAATATTAGCAAGATGAAAATCCCCACCACGTTTATTGATA AGCTGGTGGATGAGGGCAAGATTTATCTTTTCCAACTTTATAACAAAGACTTCTCACCTCACTCTAAAGGGACTCC TAATTTGCATACGCTTTATTTTAAGATGTTGTTTGATGAACGCAACCTTGAGGATGTGGTATACAAACTTAATGGA GAAGCTGAGATGTTTTACCGCCCAGCCTCAATTAAGTATGACAAGCCAACCCACCCAAAAAACACTCCGATTAAAA ACAAGAATACTCTTAACGACAAGAAGGCAAGTACCTTTCCCTACGACTTGATCAAGGATAAGCGCTATACTAAATG GCAGTTTTCATTACACTTCCCCATTACCATGAATTTTAAGGCTCCTGATAAAGCCATGATTAATGACGACGTTCGT AATTTACTTAAATCTTGTAATAACAACTTTATCATTGGTATCGACCGCGGTGAGCGTAACTTATTATACGTCTCCG TGATCGACAGCAATGGTGCCATTATTTATCAGCACTCCTTAAACATCATCGGCAATAAGTTCAAAGGAAAAACCTA TGAAACGAACTATCGCGAGAAACTGGCAACTCGCGAAAAGGACCGCACCGAGCAACGTCGCAACTGGAAAGCAATT GAATCCATCAAAGAGTTAAAGGAGGGATATATCTCCCAGGCTGTCCACGTAATCTGTCAGCTTGTCGTAAAATACG ATGCTATTATCGTAATGGAAAAACTGACCGACGGATTTAAGCGCGGACGCACCAAGTTTGAAAAGCAAGTGTACCA AAAGTTTGAAAAAATGCTGATCGATAAGTTAAACTATTACGTAGACAAGAAGTTGGACCCGGACGAGGAAGGAGGG TTGTTACACGCCTATCAACTGACCAACAAGTTGGAATCTTTCGACAAATTGGGCACACAAAGCGGTTTCATCTTCT ACGTTCGCCCAGATTTCACCTCCAAGATCGACCCAGTAACGGGATTCGTAAATCTGCTGTATCCGCGTTATGAAAA TATCGATAAGGCAAAAGATATGATCTCACGTTTCGACGATATCCGTTATAATGCTGGGGAAGACTTCTTTGAGTTT GACATCGACTATGACAAATTTCCAAAAACCGCTTCCGATTACCGCAAGAAATGGACAATTTGCACGAACGGTGAAC GCATTGAAGCATTTCGTAATCCTGCCAACAATAACGAGTGGAGCTACCGTACCATCATCTTAGCTGAAAAATTCAA GGAGTTATTCGACAACAACTCGATTAATTATCGTGACTCCGATGACTTGAAGGCGGAGATTTTGTCGCAAACCAAA GGTAAGTTCTTCGAAGACTTTTTCAAGCTGTTGCGTTTGACCTTACAGATGCGCAATTCGAATCCGGAAACAGGAG AAGACCGTATCCTTTCTCCAGTTAAAGACAAAAATGGCAACTTTTACGACTCGAGCAAATACGACGAAAAAAGCAA GCTGCCGTGTGACGCCGATGCAAACGGGGCGTATAACATCGCCCGTAAAGGTCTGTGGATTGTCGAGCAGTTCAAG AAGGCCGACAATGTCTCTACTGTTGAACCAGTCATCCACAATGATAAATGGTTAAAATTTGTCCAAGAGAACGACA TGGCTAACAATTAA SEQ ID NO: 122 ART30_Optimized3 ATGCAGGAACACAAGAAGATCAGTCATCTGACCCACCGCAATTCAGTCCAAAAGACCATTCGTATGCAACTTAATC CGGTGGGCAAGACGATGGACTACTTTCAGGCAAAACAGATTTTGGAAAATGACGAGAAATTAAAAGAAGATTATCA AAAAATCAAGGAAATCGCAGATCGTTTTTATCGTAATCTGAATGAAGATGTTTTGTCCAAAACAGGATTAGACAAA TTAAAAGACTATGCGGACATCTACTACCACTGCAACACCGACGCTGACCGCAAGCGCTTGAATGAGTGTGCGTCGG AGTTACGCAAGGAGATCGTTAAGAATTTTAAGAATCGCGATGAGTACAACAAGCTGTTTAACAAAAAAATGATCGA AATCGTGTTACCGAAGCACTTAAAAAACGAGGACGAGAAGGAAGTAGTGGCGTCATTTAAGAACTTCACTACTTAC TTTACGGGCTTTTTTACCAACCGCAAAAATATGTACTCCGACGGGGAAGAGTCCACAGCGATTGCTTACCGCTGTA TTAATGAGAATCTGCCTAAACACTTAGATAACGTTAAAGTGTTTGAAAAGGCCATCTCTAAGCTGTCTAAAAACGC CATCGACGACTTAGGTGCCACATATAGCGGTTTGTGCGGTACGAATCTTTATGATGTCTTTACTGTAGATTACTTC AATTTTTTATTACCGCAGTCGGGTATCACAGAGTACAACAAAATCATTGGCGGGTATACAACGAGCGATGGGACTA AGGTCAAGGGCATCAATGAATATATCAATCTGTACAATCAACAGGTTAGCAAACGTGATAAAATTCCGAATCTTAA GATCTTATACAAACAGATTTTAAGTGAATCAGAAAAAGTGAGCTTTATCCCACCTAAGTTCGAAGATGACAACGAA TTGTTGAGTGCAGTTTCAGAGTTTTACGCTAATGATGAAACGTTCGATGGCATGCCCCTGAAGAAAGCCATTGATG AGACAAAACTGTTATTCGGAAACCTGGACAACTCTTCCCTGAATGGAATCTATATTCAGAACGACCGCTCTGTCAC CAATCTTTCGAACTCGATGTTTGGTTCTTGGTCAGTTATTGAGGATCTTTGGAACAAAAACTATGATTCCGTTAAC TCCAACAGCCGTATTAAGGACATTCAGAAACGTGAAGACAAGCGCAAAAAGGCCTATAAAGCCGAGAAAAAGTTAT CTTTGTCGTTTCTTCAGGTACTTATTTCAAACTCAGAAAATGATGAGATTCGCGAGAAATCTATTGTAGATTATTA CAAAACTAGCTTGATGCAACTGACGGATAACTTAAGCGACAAATACAAAGAAGCGGCGCCCTTATTCTCGGAGAAC TACGATAATGAGAAGGGGCTGAAAAACGACGATAAGAGTATTTCGTTAATCAAAAACTTTCTTGATGCTATTAAGG AGATCGAAAAATTTATCAAACCATTATCAGAAACGAATATCACCGGTGAGAAAAACGACTTATTCTATTCTCAATT TACCCCGCTGTTAGATAATATTTCGCGTATTGACATTCTTTATGACAAAGTGCGTAACTACGTGACTCAAAAGCCG TTCTCTACAGATAAAATTAAATTGAATTTTGGCAACAGCCAGTTGCTGAATGGGTGGGACAAGGATAAGGAGCGCG AGTATGGGGCAGTTTTATTATGCAAAGATGAGAAATATTACCTTGCAATTATTGACAAGTCTAACAATTCAATCTT GGAGAACATTGATTTCCAGGATTGTAACGAAAGTGACTACTATGAGAAAATCGTATACAAGTTACTTACTAAGATT AACGGGAATTTGCCTCGTGTTTTTTTCTCAGAAAAGCGCAAGAAGTTATTATCACCCAGCGACGAGATCCTTAAGA TTTACAAGTCCGGCACCTTCAAAAAAGGCGATAAATTTAGCTTAGATGACTGTCACAAGCTGATCGACTTCTATAA AGAGTCCTTCAAGAAGTATCCCAATTGGCTTATCTATAATTTTAAATTCAAGAATACTAACGAATATAACGACATC TCTGAATTTTACAATGACGTAGCAAGCCAGGGATATAACATCTCGAAAATGAAAATCCCAACAACGTTTATTGACA AGTTAGTGGATGAGGGCAAGATTTATCTTTTCCAACTGTATAATAAGGACTTTTCCCCCCATTCTAAAGGTACTCC AAACCTTCATACTTTATACTTCAAAATGTTGTTCGATGAACGCAATTTAGAAGACGTTGTCTATAAGTTGAATGGT GAGGCCGAGATGTTTTATCGTCCAGCGTCCATCAAGTATGACAAGCCGACACATCCTAAGAACACCCCAATCAAGA ATAAGAACACCTTAAATGATAAGAAAGCATCTACCTTCCCCTATGATCTTATTAAAGATAAGCGTTATACGAAATG GCAGTTTTCTCTGCACTTCCCAATCACGATGAACTTTAAGGCCCCAGATAAGGCTATGATTAACGATGATGTACGC AATCTGTTGAAATCCTGTAATAATAATTTTATCATCGGTATCGATCGCGGGGAACGTAATTTATTGTATGTCTCGG TCATTGATTCGAACGGGGCGATCATCTACCAGCACAGTTTGAACATCATCGGGAACAAGTTTAAGGGCAAAACTTA TGAGACGAACTACCGCGAAAAACTTGCGACGCGTGAAAAGGATCGTACAGAGCAACGTCGCAACTGGAAAGCTATC GAGTCCATCAAGGAACTGAAAGAGGGGTACATCAGTCAAGCAGTTCACGTAATTTGTCAGCTGGTGGTAAAGTACG ACGCGATCATTGTGATGGAGAAACTGACGGATGGTTTCAAACGCGGACGTACTAAATTTGAAAAGCAGGTGTACCA GAAATTCGAGAAGATGCTTATCGATAAACTTAACTACTACGTAGACAAAAAGTTAGATCCAGACGAAGAAGGAGGT TTGCTTCACGCCTATCAATTAACTAATAAGTTAGAGAGTTTCGATAAATTGGGGACGCAGTCGGGATTTATTTTCT ATGTACGTCCGGACTTTACGAGCAAAATTGATCCGGTGACCGGCTTTGTGAACCTGTTATACCCGCGTTATGAAAA CATTGACAAGGCCAAGGATATGATTAGTCGCTTCGATGATATCCGCTATAACGCAGGGGAAGACTTCTTTGAATTT GATATTGACTATGATAAATTCCCGAAAACTGCCAGTGACTATCGTAAGAAGTGGACCATTTGTACGAATGGTGAAC GTATCGAAGCTTTCCGTAATCCAGCGAACAACAATGAATGGTCTTACCGCACTATCATCCTTGCCGAAAAATTCAA GGAATTATTCGATAACAACTCAATCAATTATCGCGATTCCGACGACCTTAAGGCTGAAATCTTGAGCCAGACGAAA GGAAAGTTCTTTGAAGACTTCTTTAAGTTGTTACGTTTGACCCTTCAGATGCGTAACTCAAACCCCGAAACCGGCG AGGATCGTATCTTAAGCCCGGTGAAAGACAAGAATGGAAACTTCTACGACTCGTCAAAATACGATGAGAAAAGTAA ACTGCCCTGTGATGCTGACGCAAACGGAGCCTACAACATTGCCCGCAAGGGATTGTGGATTGTTGAGCAATTCAAA AAAGCTGACAACGTCAGTACGGTTGAACCCGTTATTCATAATGATAAATGGTTGAAATTCGTACAGGAAAACGATA TGGCGAACAACTAA SEQ ID NO: 123 ART31_WT ATGCAAGAGCGTAAAAAAATATCGCATCTTACACACAGAAATTCAGTTAAAAAAACAATTAGGATGCAAC TGAATCCTGTAGGTAAAACAATGGATTATTTTCAAGCAAAGCAAATTCTTGAAAATGATGAAAAGCTTAA AGAGAACTATCAGAAAATCAAGGAAATAGCAGACAGGTTTTACAGAAATTTAAATGAGGATGTACTTTCA AAAACCGGGTTAGATAAATTAAAAGATTATGCTGAAATTTACTATCACTGTAATACGGATGCAGACCGAA AAAGACTTAATAAATGTGCATCGGAATTAAGGAAAGAAATCGTCAAAAATTTTAAGAATAGAGATGAGTA TAACAAACTATTCGATAAAAGGATGATTGAGATAGTTCTTCCCAAGCATCTTAAAAATGAGGACGAAAAG GAAGTTGTAGCCTCATTTAAAAATTTCACAACATACTTTACAGGTTTCTTCACTAACAGAAAAAATATGT ATTCGGACGGAGAAGAATCCACGGCAATCGCATATAGATGCATTAACGAAAATTTACCTAAGCATCTTGA CAATGTCAAGGCCTTTGAAAAAGCAATTTCTAAACTATCCAAAAACGCAATTGATGATTTAGATGCCACT TATTCCGGCTTATGCGGTACAAATTTGTATGATGTTTTTACAGTTGATTATTTTAACTTTTTGCTTCCAC AATCCGGAATTACCGAATATAACAAAATCATCGGCGGTTACACAACAAACGACGGTACAAAAGTTAAGGG TATTAACGAATATATAAATTTGTACAATCAACAAGTATCCAAACGGGATAAAATTCCTAATCTTCAAATT TTGTATAAACAAATTTTAAGTGAGAGTGAAAAGGTATCATTCATACCGCCAAAGTTTGAAGATGACAACG AACTTTTATCGGCTGTTTCAGAGTTTTACGCAAACGACGAAACCTTTGACGGGATGCCATTAAAAAAAGC AATTGATGAAACAAAGCTATTATTCGGCAATTTAGATAATTCCTCTCTTAATGGAATTTACATTCAAAAT GACCGATCCGTGACAAATCTGTCAAACAGCATGTTCGGTTCTTGGTCGGTAATAGAAGATTTATGGAACA AAAATTATGACTCCGTTAATTCAAACAGCAGAATCAAAGATATTCAAAAGCGTGAAGACAAAAGAAAAAA AGCATACAAAGCAGAAAAGAAACTTTCACTTTCATTTTTACAGGTTTTGATTTCTAATTCCGAAAATGAT GAAATCAGAAAAAAGTCTATCGTAGATTACTACAAGACTTCTTTAATGCAACTTACCGACAATTTATCAG ACAAATACAACGAAGCAGCACCTCTGCTCAATGAGAATTACTCTAATGAAAAAGGTTTGAAAAATGACGA TAAATCTATTTCATTAATTAAAAATTTTCTTGATGCCATAAAAGAAATTGAAAAATTCATCAAGCCTTTG TCCGAAACTAATATTACAGGTGAGAAAAATGATTTGTTTTACAGTCAGTTCACACCATTACTTGATAATA TCAGCAGAATAGACATATTATATGATAAGGTCAGAAACTATGTTACACAAAAACCGTTTTCAACCGATAA AATCAAACTTAACTTTGGCAATTACCAGCTATTAAACGGCTGGGATAAAGACAAAGAAAGAGAGTACGGA GCCGTTTTGCTTTGTAAAGATGAAAAGTATTATCTTGCAATCATAGATAAAAGCAATAATCGTATTTTGG AAAATATTGATTTTCAAGACTGCGATGAAAGCGATTGTTACGAAAAGATAATTTACAAGCTTCTCCCCAC TCCAAATAAAATGCTTCCAAAAGTTTTCTTTGCAAAAAAGCACAAAAAACTTTTGTCACCGTCAGACGAA ATACTTAAAATTTATAAAAACGGCACTTTCAAAAAAGGTGATAAGTTCAGCCTTGATGATTGCCATAAGT TAATTGATTTCTACAAAGAATCATTCAAAAAGTACCCAAAATGGTTAATTTATAACTTTAAATTCAAAAA AACAAACGGATATAATGATATCCGCGAATTTTATAATGATGTTGCTTTACAGGGATATAATATTTCAAAA ATGAAAATCCCTACATCATTTATTGACAAACTTGTAGATGAAGGAAAAATCTATCTTTTCCAACTCTACA ACAAAGACTTTTCACCGCATAGCAAGGGTACTCCTAATCTGCATACACTTTATTTTAAAATGTTGTTTGA TGAAAGAAATCTTGAAGATGTGGTGTATAGGCTTAACGGTGAGGCAGAAATGTTTTATCGTCCTGCAAGT ATAAAATATGACAAACCAACTCATCCCAAAAACACACCGATAAAAAATAAAAATACACTCAATGATAAAA GAGCAAGCACTTTTCCTTATGACTTAATTAAAGATAAACGCTACACTAAATGGCAGTTTTCACTTCACTT CCCTATTACCATGAATTTTAAAGATCCGGATAAGGCAATGATCAATGATGATGTCAGAAATCTGCTGAAA TCCTGCAACAACAATTTCATCATAGGAATTGACAGAGGCGAAAGAAACTTGCTTTATGTCAGCGTAATTA ACAGCAACGGTGCTATAATATATCAGCACTCACTCAATATTATCGGAAACAAGTTTAAAGGAAAAACATA CGAAACTAACTACCGGGAAAAACTTGCAACAAGAGAAAAAGATCGTACGGAACAGCGCCGTAACTGGAAA GCAATTGAGAGTATAAAAGAACTCAAAGAGGGCTATATCAGTCAGGCTGTGCATGTTATATGTCAGCTTG TTGTCAAGTACGATGCAATCATCGTTATGGAAAAGCTGACTGACGGATTCAAACGAGGCAGAACAAAGTT TGAAAAACAGGTTTATCAGAAATTTGAAAAAATGCTGATTGACAAACTTAATTACTATGTTGACAAAAAG CTTGATCCCGACGAAGAAGGCGGTTTACTTCATGCCTATCAGCTTACGAACAAGCTTGAGAGCTTTGATA AGCTTGGTACGCAAAGCGGTTTTATTTTCTATGTCCGTCCTGATTTTACAAGCAAAATTGATCCCGTTAC CGGCTTTGTAAATTTGTTGTATCCTCGATACGAAAAAATTGACAAAGCCAAAGATATGATTTCAAGATTT GACGATATAAGATACAATGCCGGCGAGGACTTTTTTGAATTTGACATTGATTACGATAAGTTTCCAAAGA CTGCGTCTGACTATCGCAAGAAGTGGACAATCTGTACTAACGGCGAAAGGATTGAAGCTTTCAGAAATCC CGCAAACAATAACGAATGGAGTTATCGTACAATAATTCTTGCAGAAAAATTCAAAGAATTATTTGATAAC AATTCTATAAATTATCGTGATTCTGACGATTTGAAAGCTGAAATTCTTTCACAGACAAAGGGCAAATTTT TTGAGGATTTCTTTAAATTATTAAGACTTACCCTACAGATGCGAAACAGTAACCCTGAAACAGGCGAGGA CCGTATTCTTTCTCCCGTCAAGGACAAAAACGGCAATTTTTACGACAGTTCAAAATATGATGAAAAGAGC AAGCTTCCGTGTGATGCCGATGCAAACGGTGCGTACAACATTGCCCGCAAAGGTTTGTGGATTGTTGAAC AATTCAAAAAAGCCGATAATGTTTCAACTGTCGAACCGGTAATCCACAATGACAAATGGCTGAAATTTGT TCAGGAGAATGATATGGCGAATAATTAA SEQ ID NO: 124 ART31_Optimized3 ATGCAGGAGCGTAAAAAGATTAGCCATCTGACGCATCGCAACTCTGTTAAGAAAACGATTCGTATGCAGTTGAACC CAGTCGGAAAAACAATGGACTACTTTCAAGCAAAGCAAATTTTGGAGAACGACGAGAAGCTTAAAGAGAACTACCA AAAAATTAAGGAGATCGCTGATCGCTTCTATCGCAATCTGAACGAGGACGTGCTTTCGAAGACAGGTTTGGACAAG TTGAAGGATTATGCCGAGATTTACTACCACTGCAATACGGACGCAGATCGTAAACGCTTAAACAAGTGCGCTAGCG AGCTTCGCAAAGAAATCGTCAAAAACTTTAAAAACCGTGATGAATATAACAAACTGTTCGATAAGCGCATGATTGA AATCGTGCTGCCGAAGCATTTAAAAAATGAAGATGAAAAGGAAGTTGTTGCGTCATTCAAAAATTTTACGACGTAT TTCACGGGCTTCTTTACTAATCGCAAAAATATGTATTCCGATGGAGAGGAAAGTACCGCTATCGCCTATCGCTGTA TCAATGAGAATTTACCCAAGCACTTGGACAACGTGAAGGCCTTTGAGAAAGCTATTTCCAAACTGTCCAAGAATGC AATCGATGACCTTGACGCGACATATTCAGGGCTTTGCGGAACCAATTTATATGATGTCTTCACTGTGGACTATTTT AACTTCTTATTGCCTCAATCCGGGATCACCGAGTATAATAAAATCATTGGAGGCTATACTACCAACGATGGTACAA AGGTTAAAGGCATTAACGAATATATCAACTTATACAATCAGCAGGTATCGAAACGTGACAAAATTCCGAATTTACA GATTTTATACAAGCAGATCCTTAGTGAATCAGAGAAGGTCTCTTTTATTCCCCCTAAGTTCGAAGACGATAATGAG CTTTTAAGTGCAGTTTCAGAGTTCTATGCCAATGACGAGACTTTCGACGGGATGCCCTTAAAGAAAGCGATTGATG AAACTAAATTGCTTTTTGGCAATCTGGATAACTCATCCCTTAATGGGATCTACATTCAAAATGATCGTTCCGTAAC CAACTTGAGTAACAGTATGTTTGGAAGCTGGTCAGTGATTGAAGACCTTTGGAACAAAAACTACGACTCTGTTAAT TCTAATTCTCGCATTAAGGATATCCAAAAGCGTGAAGACAAGCGCAAGAAAGCTTATAAAGCAGAGAAAAAGTTGA GCCTTAGTTTCTTACAAGTCCTGATCTCCAACTCTGAAAATGATGAAATTCGCAAAAAATCTATTGTTGATTATTA CAAGACTTCCCTTATGCAGCTTACTGATAATTTGAGCGATAAATACAATGAGGCTGCACCGCTTTTAAATGAAAAC TATAGCAATGAAAAGGGTTTAAAAAATGACGATAAATCCATCTCCCTTATCAAAAACTTCTTAGATGCAATTAAGG AAATTGAGAAATTCATCAAGCCATTGAGCGAAACGAATATTACGGGTGAGAAGAATGACTTGTTCTATTCTCAGTT TACACCATTGCTGGATAACATTTCGCGCATTGACATTCTTTATGATAAGGTTCGTAATTATGTAACACAAAAACCA TTTTCCACGGATAAAATTAAGTTGAACTTCGGCAACTATCAACTTCTGAACGGCTGGGACAAGGATAAGGAGCGCG AGTACGGGGCGGTCCTGCTTTGCAAAGACGAAAAGTATTACCTGGCAATCATCGACAAATCAAATAATCGTATTTT GGAGAATATTGATTTTCAGGACTGCGACGAATCCGACTGTTACGAAAAGATCATTTATAAACTGCTGCCGACCCCC AACAAGATGTTGCCAAAGGTGTTTTTTGCGAAAAAGCATAAGAAACTTCTGAGCCCATCTGACGAGATTCTGAAGA TCTACAAAAATGGTACATTTAAAAAAGGGGATAAGTTTTCATTGGACGACTGTCATAAGCTTATCGATTTTTACAA AGAATCATTTAAGAAGTACCCGAAATGGCTGATCTATAATTTTAAGTTCAAAAAGACTAACGGATACAACGACATT CGCGAGTTTTACAACGATGTAGCGCTGCAAGGCTACAACATTAGTAAAATGAAGATTCCGACCTCTTTCATTGATA AATTAGTAGATGAGGGTAAAATCTATCTGTTTCAATTATATAATAAGGATTTCTCTCCACACTCGAAGGGGACACC GAATTTGCACACGTTGTACTTTAAGATGCTTTTTGACGAGCGCAATCTGGAGGATGTCGTTTATCGTTTGAACGGG GAAGCGGAAATGTTCTACCGTCCGGCCAGTATCAAGTATGACAAACCCACTCACCCCAAGAACACACCTATCAAGA ATAAGAACACTCTGAACGATAAGCGTGCCTCTACTTTTCCATATGATCTTATTAAGGATAAGCGCTATACGAAGTG GCAGTTCAGTTTGCATTTCCCAATCACCATGAATTTCAAAGATCCAGATAAGGCCATGATTAACGATGACGTCCGC AATTTATTGAAATCGTGCAATAATAATTTTATTATCGGCATCGACCGCGGGGAGCGTAATTTACTGTATGTCTCAG TAATCAACAGTAACGGCGCTATTATTTACCAGCATTCATTGAATATCATCGGTAACAAATTTAAGGGTAAAACATA CGAAACAAACTATCGCGAAAAGCTTGCCACGCGTGAAAAGGATCGCACAGAGCAGCGTCGCAACTGGAAAGCTATC GAGTCCATTAAAGAATTGAAGGAGGGATACATTTCCCAAGCCGTTCATGTCATTTGTCAATTAGTTGTTAAGTATG ACGCGATCATCGTGATGGAGAAATTGACGGATGGATTCAAGCGTGGGCGTACGAAATTTGAAAAGCAAGTGTACCA AAAATTCGAAAAAATGTTAATCGACAAGTTAAACTACTATGTAGATAAGAAACTTGATCCAGATGAAGAGGGGGGA CTGCTTCATGCGTACCAGTTGACAAACAAACTGGAAAGCTTCGACAAGTTGGGTACTCAATCCGGGTTCATTTTTT ATGTACGTCCTGACTTTACAAGCAAGATTGACCCGGTAACCGGGTTTGTAAATTTGCTGTACCCTCGCTACGAGAA AATTGATAAAGCAAAAGATATGATCTCGCGCTTCGATGACATTCGCTATAACGCCGGCGAGGACTTTTTCGAATTT GATATCGATTACGATAAGTTTCCAAAAACAGCAAGCGATTATCGCAAGAAGTGGACTATTTGCACCAATGGAGAGC GTATCGAGGCTTTCCGTAATCCAGCAAACAATAACGAATGGTCTTACCGTACTATTATCCTGGCGGAAAAGTTTAA AGAGCTTTTTGACAATAACTCAATTAACTACCGCGACAGTGATGACTTAAAGGCGGAGATTTTATCTCAAACTAAG GGAAAATTCTTTGAGGACTTCTTCAAGTTATTGCGTCTGACCTTACAAATGCGTAATAGTAATCCCGAAACAGGAG AAGACCGCATCTTGTCTCCGGTCAAGGATAAGAATGGAAACTTTTACGATAGCTCTAAATACGACGAGAAAAGTAA ACTTCCGTGTGACGCAGATGCGAATGGTGCTTATAACATTGCACGTAAAGGCCTTTGGATTGTCGAACAATTTAAG AAGGCGGACAATGTATCCACCGTAGAACCCGTGATCCATAATGATAAATGGCTGAAATTTGTGCAGGAAAATGACA TGGCGAATAACTAA SEQ ID NO: 125 ART31_Optimized2 ATGCAAGAGCGCAAAAAGATCTCTCATTTAACGCATCGCAATTCGGTCAAAAAGACGATCCGTATGCAACTGAACC CTGTTGGTAAAACGATGGACTACTTTCAAGCCAAACAAATCCTTGAAAATGACGAAAAATTAAAGGAGAACTACCA GAAAATCAAAGAGATTGCGGATCGCTTCTATCGTAATTTGAACGAGGACGTCCTGTCCAAAACAGGGTTGGACAAA CTTAAAGACTACGCAGAGATTTACTACCACTGCAACACTGATGCGGACCGTAAGCGTTTGAATAAATGTGCAAGTG AATTGCGCAAAGAGATCGTAAAGAACTTTAAGAATCGCGATGAGTATAATAAGTTGTTTGACAAGCGTATGATCGA AATCGTGCTTCCTAAGCATTTAAAAAACGAGGACGAAAAAGAGGTTGTGGCGTCCTTCAAAAATTTCACTACCTAT TTTACGGGCTTCTTTACAAATCGTAAAAATATGTATAGCGATGGCGAAGAGAGCACCGCAATTGCCTACCGCTGTA TCAACGAAAACTTGCCTAAACACCTGGACAACGTGAAAGCCTTCGAAAAGGCTATCTCAAAACTGTCAAAAAATGC TATCGACGATTTGGACGCAACCTATTCGGGGTTGTGCGGGACTAATTTATACGACGTATTTACCGTCGATTACTTC AACTTCTTGTTACCCCAATCTGGAATCACAGAGTATAATAAGATCATCGGGGGCTATACTACTAACGATGGGACTA AAGTCAAAGGTATCAATGAATACATTAACTTGTACAACCAGCAGGTATCTAAACGTGACAAAATTCCGAACTTGCA GATCCTTTATAAACAGATTCTTTCTGAGAGCGAAAAAGTATCCTTTATTCCACCTAAGTTTGAGGACGATAATGAG CTGTTAAGCGCAGTCTCGGAATTCTATGCGAACGACGAGACCTTTGACGGTATGCCGTTGAAGAAAGCTATTGACG AGACAAAACTGTTATTTGGGAACTTAGATAATTCCAGCCTGAATGGCATTTATATCCAAAATGACCGCAGTGTCAC TAATCTTTCGAACTCTATGTTCGGGTCCTGGAGTGTAATCGAGGACTTGTGGAATAAAAATTATGACTCGGTTAAT TCTAATTCACGCATTAAGGACATCCAAAAACGTGAAGATAAACGCAAAAAAGCGTACAAGGCCGAAAAGAAACTGT CCCTGTCGTTCTTACAGGTCCTTATCTCCAATTCGGAGAATGATGAGATTCGCAAGAAGTCAATCGTTGACTACTA TAAAACTTCTTTAATGCAGCTGACCGATAATTTGTCTGACAAATATAACGAGGCAGCACCGTTATTGAACGAGAAC TATTCGAATGAGAAAGGGTTAAAAAACGACGATAAATCGATCAGTCTGATCAAAAATTTTTTGGATGCAATTAAAG AAATCGAAAAGTTCATCAAGCCCTTATCCGAGACCAACATTACAGGCGAAAAGAACGATCTGTTTTACTCGCAATT CACTCCGTTGTTAGATAATATCAGTCGCATCGATATCTTGTACGATAAAGTACGTAATTATGTGACACAGAAACCG TTCTCGACCGACAAGATCAAGTTGAATTTTGGAAACTACCAATTATTGAATGGGTGGGACAAGGACAAAGAGCGCG AATATGGAGCTGTCTTGCTGTGTAAAGATGAAAAATACTATCTTGCCATTATCGACAAGTCCAACAACCGCATTCT GGAAAACATTGACTTCCAAGATTGTGATGAGTCAGACTGCTACGAGAAGATCATTTATAAACTGTTGCCCACTCCT AACAAGATGCTGCCTAAGGTTTTTTTCGCAAAGAAACACAAAAAACTGCTTTCCCCGTCCGATGAGATCCTGAAAA TCTACAAAAACGGGACGTTTAAGAAAGGAGACAAATTCTCGCTTGACGATTGCCATAAGCTGATCGATTTCTATAA AGAGTCTTTCAAAAAATATCCCAAGTGGTTAATTTATAATTTTAAATTCAAGAAGACGAATGGCTACAACGATATT CGCGAGTTTTATAATGACGTTGCTTTGCAAGGATATAACATTTCCAAAATGAAGATCCCAACATCCTTTATCGATA AATTAGTTGATGAAGGGAAGATCTACCTGTTTCAACTGTACAATAAAGACTTTTCGCCACACTCAAAAGGAACTCC CAACTTACATACGTTATATTTCAAAATGTTATTCGATGAACGTAACTTGGAAGATGTTGTCTACCGTCTTAATGGC GAGGCTGAGATGTTCTATCGTCCAGCCAGTATTAAATACGACAAGCCAACCCACCCTAAAAACACACCTATTAAAA ACAAAAACACACTGAATGATAAGCGCGCCAGTACATTCCCATATGATTTGATCAAAGACAAACGCTACACTAAATG GCAGTTCAGTCTTCATTTCCCAATCACTATGAATTTCAAAGACCCAGATAAGGCCATGATCAATGATGATGTACGT AATCTTTTGAAGTCTTGCAATAATAACTTCATCATTGGTATTGACCGCGGCGAGCGCAACCTTTTATATGTGAGCG TAATTAACTCAAACGGCGCCATCATTTATCAACACTCCCTTAACATTATTGGCAACAAGTTTAAAGGGAAAACGTA TGAAACAAATTACCGTGAGAAATTGGCTACCCGCGAAAAGGACCGCACTGAACAGCGCCGCAACTGGAAGGCGATC GAAAGCATTAAGGAGTTAAAGGAAGGGTACATCAGCCAGGCAGTGCACGTTATTTGCCAATTGGTTGTCAAATATG ATGCTATTATCGTTATGGAAAAACTGACCGACGGGTTCAAACGTGGACGCACCAAGTTCGAGAAGCAAGTGTACCA AAAGTTTGAAAAAATGTTAATTGATAAGTTAAATTATTATGTTGATAAGAAATTAGATCCAGACGAAGAAGGCGGT TTACTTCATGCTTATCAGCTTACAAATAAGTTGGAAAGCTTTGATAAGCTGGGTACGCAGTCCGGATTTATTTTTT ACGTGCGTCCGGACTTCACCAGCAAGATCGATCCAGTCACGGGTTTCGTTAATCTTCTTTACCCGCGCTATGAGAA GATCGACAAGGCAAAGGACATGATCTCACGCTTTGACGACATTCGCTACAACGCCGGGGAAGACTTTTTTGAGTTC GATATTGACTACGACAAGTTCCCTAAAACAGCCTCGGATTATCGTAAGAAGTGGACCATCTGTACTAATGGTGAGC GTATCGAAGCATTCCGTAATCCTGCTAATAACAACGAATGGAGCTACCGCACTATTATTTTGGCCGAAAAATTCAA GGAACTGTTTGATAACAATTCGATCAATTATCGCGACTCAGATGACCTTAAAGCAGAAATTTTATCCCAGACAAAA GGCAAGTTTTTCGAAGATTTCTTCAAATTATTGCGCCTTACGTTGCAGATGCGCAATAGCAATCCTGAGACGGGGG AAGACCGTATCTTAAGCCCCGTGAAGGATAAAAACGGCAATTTCTACGACTCGTCCAAATATGATGAAAAGAGCAA ACTTCCGTGTGATGCTGACGCTAATGGGGCATACAACATCGCCCGTAAAGGGCTGTGGATTGTGGAGCAGTTCAAG AAAGCAGATAACGTTAGTACCGTCGAACCTGTCATTCACAACGATAAATGGTTGAAATTCGTACAGGAGAACGATA TGGCGAACAATTAA SEQ ID NO: 126 ART31_Optimized3 ATGCAAGAGCGTAAGAAGATTTCCCACTTGACTCATCGTAATTCTGTTAAAAAAACCATTCGTATGCAATTAAACC CGGTCGGTAAGACTATGGACTACTTTCAGGCCAAGCAAATCCTGGAAAACGATGAAAAGTTGAAGGAAAACTATCA AAAAATTAAGGAAATTGCTGACCGCTTTTATCGCAACTTAAACGAGGATGTGTTGTCAAAAACCGGCCTTGACAAA TTGAAGGACTACGCCGAAATTTATTACCATTGTAATACGGACGCCGATCGTAAGCGCTTAAACAAATGTGCGAGCG AGCTTCGTAAGGAGATTGTTAAAAATTTCAAAAATCGCGATGAGTACAACAAGCTTTTCGACAAGCGTATGATTGA AATCGTCTTGCCTAAACATTTGAAGAATGAAGACGAAAAGGAAGTCGTAGCATCCTTTAAGAACTTTACGACGTAC TTTACCGGTTTCTTCACAAATCGTAAAAACATGTACTCGGATGGCGAAGAGTCAACGGCCATCGCTTACCGCTGTA TTAACGAAAATCTGCCGAAACATTTGGATAATGTTAAAGCATTCGAGAAGGCAATCTCTAAATTATCAAAAAACGC CATCGACGATCTGGACGCCACCTACAGTGGGTTATGCGGCACGAACTTATACGATGTGTTCACTGTAGACTACTTT AACTTCTTATTGCCCCAAAGCGGCATCACCGAATACAACAAAATTATTGGTGGCTACACGACGAACGATGGTACTA AGGTGAAAGGAATCAACGAATACATCAACTTGTACAATCAACAGGTTTCCAAACGCGATAAGATTCCCAATTTACA GATCTTATATAAGCAAATTCTGTCCGAATCAGAGAAGGTGTCCTTTATTCCACCGAAGTTCGAGGATGATAATGAG CTTTTATCGGCGGTTAGCGAGTTTTATGCAAATGATGAAACTTTTGACGGCATGCCCCTTAAAAAAGCCATCGATG AGACAAAGTTGTTGTTTGGCAACTTAGACAATTCTTCTCTGAACGGGATTTACATTCAGAACGACCGTTCGGTGAC GAATTTAAGCAACAGTATGTTTGGGAGTTGGAGCGTCATCGAAGACCTTTGGAATAAAAATTATGATAGTGTGAAC TCTAATAGTCGCATTAAAGATATCCAGAAGCGTGAAGATAAACGCAAAAAGGCCTATAAGGCTGAGAAAAAGCTGT CTCTTTCTTTTTTACAGGTACTGATTTCTAACTCCGAGAACGACGAGATTCGTAAGAAGAGTATCGTTGATTACTA TAAGACGTCGTTAATGCAACTTACAGATAACTTGTCGGACAAATACAACGAAGCCGCTCCTTTACTGAACGAAAAT TATTCTAATGAGAAAGGTTTAAAGAACGATGATAAGTCTATCTCACTTATCAAGAACTTCCTTGACGCCATCAAGG AAATTGAAAAATTCATCAAACCGTTGTCCGAGACCAACATTACCGGTGAAAAGAATGACCTGTTTTACAGTCAATT CACCCCACTGCTTGACAACATCAGCCGTATTGACATCCTGTACGATAAGGTTCGTAACTACGTGACTCAGAAGCCT TTCTCCACGGATAAAATTAAGTTGAACTTCGGAAATTACCAGCTTTTGAACGGATGGGATAAGGACAAAGAACGTG AGTACGGTGCTGTTTTGTTATGTAAGGACGAAAAATACTATCTTGCGATTATTGACAAGTCTAATAATCGTATTCT TGAAAACATTGACTTTCAAGACTGTGATGAGAGTGACTGTTATGAAAAAATCATTTATAAACTTCTGCCCACGCCA AATAAAATGCTTCCGAAAGTCTTCTTCGCAAAAAAACATAAGAAGTTACTTTCGCCTAGTGATGAAATCTTGAAAA TCTATAAAAACGGCACCTTTAAGAAGGGTGACAAATTTAGCTTAGACGATTGCCACAAACTGATCGACTTCTACAA GGAGAGTTTCAAAAAATATCCGAAATGGCTGATTTACAATTTTAAGTTTAAAAAAACAAACGGATATAACGACATT CGCGAATTCTATAATGATGTTGCCCTGCAGGGGTATAATATTTCAAAAATGAAGATTCCTACTAGTTTTATTGACA AGTTGGTAGATGAAGGAAAAATTTATCTGTTCCAACTGTACAATAAAGATTTTTCGCCACATTCAAAAGGAACCCC GAATCTTCATACTTTGTATTTTAAGATGTTGTTTGACGAGCGTAACCTTGAGGATGTCGTTTATCGTTTGAACGGC GAAGCAGAGATGTTTTACCGCCCGGCGTCCATCAAGTATGATAAGCCAACTCACCCGAAGAACACTCCAATTAAAA ATAAGAATACATTGAATGATAAGCGCGCCAGTACCTTTCCTTATGATTTGATCAAGGACAAACGCTACACAAAGTG GCAATTCAGTCTTCACTTTCCAATTACGATGAACTTTAAGGACCCTGATAAGGCGATGATTAATGATGACGTCCGT AATCTGTTAAAATCTTGCAACAATAATTTCATCATTGGAATCGACCGTGGGGAACGCAATCTGCTGTACGTTTCCG TTATCAATAGTAACGGAGCAATTATCTACCAGCATAGCTTGAACATTATCGGAAACAAGTTCAAAGGTAAAACATA CGAAACTAATTACCGTGAAAAACTGGCCACACGCGAAAAGGATCGCACCGAGCAGCGTCGCAATTGGAAAGCCATC GAATCTATCAAAGAACTGAAGGAGGGTTATATTTCGCAGGCTGTCCATGTAATTTGTCAGTTAGTAGTCAAGTACG ACGCCATCATCGTAATGGAGAAGCTTACTGACGGATTTAAACGTGGACGCACGAAATTTGAAAAACAGGTATATCA GAAGTTTGAAAAAATGCTGATCGACAAGCTTAATTATTATGTGGACAAGAAATTAGATCCAGACGAGGAGGGGGGG TTATTACATGCATATCAGCTGACGAATAAACTGGAGAGTTTTGATAAGTTAGGGACTCAATCGGGCTTTATCTTTT ATGTACGTCCAGATTTTACTTCGAAGATTGACCCTGTGACGGGGTTTGTAAACCTGTTATATCCCCGCTACGAGAA AATTGATAAGGCAAAAGATATGATTAGCCGCTTCGACGACATTCGCTATAATGCTGGAGAAGATTTTTTCGAATTT GACATCGATTATGATAAGTTCCCAAAGACAGCCTCGGATTACCGTAAGAAGTGGACTATCTGTACTAACGGGGAGC GTATTGAAGCATTTCGTAACCCTGCGAATAACAATGAATGGAGTTACCGCACAATTATTCTTGCTGAAAAATTTAA AGAATTATTTGACAACAATTCGATTAACTATCGTGATTCCGACGATCTTAAGGCGGAAATTCTTTCACAAACGAAG GGGAAGTTCTTCGAGGATTTCTTTAAGCTTCTTCGCTTGACTTTACAGATGCGTAACTCTAACCCCGAAACCGGCG AAGATCGTATTTTGAGTCCTGTGAAGGATAAAAACGGTAACTTTTACGACAGCTCGAAATACGATGAAAAGAGTAA ACTTCCATGTGACGCGGACGCAAATGGGGCATACAATATTGCGCGTAAGGGGTTGTGGATTGTGGAACAGTTCAAA AAGGCGGATAACGTATCCACGGTAGAACCCGTAATCCATAACGATAAGTGGTTAAAGTTCGTGCAAGAAAATGACA TGGCTAACAACTAA SEQ ID NO: 127 ART32_WT ATGCAAGAGCGTAAAAAAATATCGCATCTTACACACAGAAATTCAGTTCTAAAAACAATTGGGATGCAAC TGAATCCTGTAGGTAAAACAATGGATTATTTTCAAGCAAAGCAAATTCTTGAAAATGATGAAAAGCTTAA AGAGGACTATCAGAAAATCAAGGAAATAGCAGACAGGTTTTACAGAAATTTAAATGAGGATGTACTTTCA AAAACCGGGTTAGATAAATTAAAAGATTATGCTGAAATTTACTATCACTGTAATACGGATGCAGACCGAA AAAGACTTAATAAATGTGCATCGGAATTAAGGAAAGAAATCGTCAAAAATTTTAAGAATAGAGATGAGTA TAACAAACTATTCGATAAAAGGATGATTGAGATAGTTCTTCCCAAGCATCTTAAAAATGAGGACGAAAAG GAAGTTGTAGCCTCATTTAAAAATTTCACAACATACTTTACAGGTTTCTTCACTAACAGAAAAAATATGT ATTCGGACGGAGAAGAATCCACGGCAATTGCATATAGATGCATTAACGAAAATTTGCCTAAGCATCTTGA CAATGTCAAGGCCTTTGAAAAAGCAATTTCTAAACTATCCAAAAACGCAATTGATGATTTAGATGCCACT TATTCCGGCTTATGCGGTACAAATTTGTATGATGTTTTTACAGTTGATTATTTTAACTTTTTGCTTCCAC AATCCGGAATTACCGAATATAACAAAATCATCGGCGGTTACACAACAAGCGACGGTACAAAAGTTAAGGG TATTAACGAATATATAAATTTGTACAATCAACAAGTATCCAAACGGGATAAAATTCCTAATCTTCAAATT TTGTATAAACAAATTTTAAGTGAGAGTGAAAAGGTATCATTCATACCGCCAAAGTTTGAAGATGACAACG AACTTTTATCGGCTGTTTCAGAGTTTTACGCAAATGACGAAACCTTTGACGAGATGCCATTAAAAAAAGC AATTGATGAAACAAAGCTATTATTCGGCAATTTAGATAATTCCTCTCTTAATGGAATTTACATTCAAAAT GACCGATCCGTGACAAATCTGTCAAACAGTATGTTCGGTTCTTGGTCAGTAATAGAAGATTTATGGAACA AAAATTATGACTCCGTTAATTCAAACAGCAGAATCAAAGATATTCAAAAGCGTGAAGACAAAAGAAAAAA AGCATACAAAGCAGAAAAGAAACTTTCACTTTCATTTTTACAGGTTTTGATTTCCAATTCCGAAAATAAT GAAATCAGAGAAAAGTCTATCGTAGATTACTACAAGACTTCTTTAATGCAACTTACCGACAATTTGTCAG ACAAATACAACGAAGTAGCACCTCTGCTCAATGAGAATTACTCTAATGAAAAAGGTTTGAAAAATGACGA TAAATCTATTTCATTAATTAAAAATTTTCTTGATGCCATAAAAGAAATTGAAAAATTCATCAAGCCTTTG TCCGAAACTAATATTACAGGTGAGAAAAATGATTTGTTTTACAGTCAGTTCACACCATTACTTGATAATA TCAGCAGAATAGACATATTATATGATAAGGTCAGAAACTATGTTACACAAAAACCGTTTTCAACCGATAA AATCAAGCTTAACTTTGGCAATTACCAGCTATTAAACGGCTGGGATAAAGACAAAGAAAGAGAGTACGGA GCCGTTTTGCTTTGTAGGGATGAAAAGTATTATCTTGCAATCATAGATAAAAGCAATAATCGTATTTTGG AAAATATTGATTTTCAAGACTGCGATGAAAGCGATTGTTACGAAAAGATAATTTACAAGCTTCTCCCCAC TCCAAATAAAATGCTTCCAAAAGTTTTCTTTGCAAAAAAACACAAAAAACTTTTGTCACCGTCAGACGAA ATACTTAAAATTCGTAAAAACGGCACTTTCAAAAAAGGCGATAAGTTCAGCCTTGATGATTGCCATAAGT TAATTGATTTCTACAAAGAATCATTCAAAAAGTACCCAAATTGGTTAATTTATAACTTTAAATTCAAAAA AACAAACGAATATAACGATATCCGCGAATTTTATAATGATGTTGCTTTACAGGGATATAATATTTCAAAA ATGAAAATCCCGACATCATTTATTGACAAACTTGTAGATGAAGGAAAAATCTATCTTTTCCAACTCTACA ACAAAGACTTTTCACCGCATAGCAAGGGTACTCCTAATCTGCATACACTTTATTTTAAAATGTTGTTTGA TGAAAGAAATCTTGAAGATGTGGTGTACAAGCTTAACGGTGAGGCAAAAATGTTTTATCGTCCTGCAAGT ATAAAATATGACAAACCAACTCATCCCAAAAACACACCGATAAAAAATAAAAATACACTCAATGATAAAA AAGCAAGCACTTTTCCTTATGACTTAATTAAAGATAAACGCTACACTAAGTGGCAGTTTTCACTTCACTT CTCTATTACCATGAATTTTAAAGCTCCGGATAAGGCAATGATCAATGATGATGTCAGAAATCTGCTGAAA TCCTGCAACAACAATTTCATCATAGGAATTGACAGAGGCGAAAGAAACTTGCTTTATGTCAGCGTAATTG ACAGCAACGGTGCTATAATATATCAGCACTCACTCAATATTATCGGAAACAAGTTTAAAGGAAAAACATA CGAAACTAACTACCGGGAAAAACTTGCAACAAGAGAAAAAGAGCGTACGGAACAGCGCCGTAACTGGAAA GCAATTGAGAGTATAAAAGAACTCAAAGAGGGCTATATCAGTCAGGCTGTGCATGTTATATGCCAGCTTG TTGTCAAGTACGATGCAATCATCGTTATGGAAAAGCTGACTGACGGATTCAAACGAGGCAGAACAAAGTT TGAAAAACAGGTTTATCAGAAATTTGAAAAAATGCTGATTGACAAACTGAATTACTATGTTGACAAAAAG CTTGATCCCGATGAAGAAGGCGGTTTACTTCATGCCTACCAGCTTACGAACAAGCTTGAGAGCTTTGATA AGCTTGGTACGCAAAGCGGTTTTATTTTCTATGTCCGTCCTGATTTTACAAGCAAAATTGATCCCGTTAC CGGCTTTGTAAATTTGTTGTATCCTCGATATGAAAACATTGACAAAGCCAAAGATATGATTTCAAGATTT GACGATATAAGATACAATGCCGGCGAGGACTTTTTTGAATTTGACATTGATTACGATAAGTTTCCAAAGA CTGCGTCTGACTATCGCAAGAAGTGGACAATCTGTACTAACGGCGAAAGGATTGAAGCTTTCAGAAATCC CGCAAACAATAACGAATGGAGTTATCGTACAATAATTCTTGCAGAAAAATTCAAAGAATTATTTGATAAC AATTCTATAAATTATCGTGATTCTGACGATTTGAAAGCTGAAATTCTTTCACAGACAAAGGGCAAATTTT TTGAGGATTTCTTTAAATTATTAAGACTTACCCTACAGATGCGAAACAGCAACCCTGAAACAGGCGAGGA CCGTATTCTTTCTCCCGTCAAGGACAAAAACGGCAATTTTTACGACAGTTCAAAATATGATGAAAAGAGC AAGCTTCCGTGTGATGCCGATGCAAACGGTGCGTACAACATTGCCCGCAAAGGTTTGTGGATTGTTGAAC AATTCAAAAAATCCGATAATGTTTCAACTGTCGAACCGGTAATCCACAATGACAAATGGCTGAAATTTGT TCAGGAGAATGATATGGCGAATAATTAA SEQ ID NO: 128 ART32_Optimized1 ATGCAGGAACGTAAGAAGATCAGCCACTTAACACATCGTAACAGTGTTTTGAAGACCATCGGCATGCAGCTTAATC CTGTAGGAAAAACAATGGATTATTTCCAAGCGAAGCAAATCTTGGAAAACGATGAAAAATTGAAAGAGGATTACCA AAAAATCAAAGAAATTGCTGATCGTTTCTACCGCAATCTTAACGAGGACGTGCTGTCAAAGACAGGCTTGGACAAG TTGAAAGACTACGCCGAAATTTACTATCACTGCAATACCGACGCCGATCGTAAACGTCTGAATAAATGTGCCTCTG AGTTGCGTAAAGAGATTGTGAAGAATTTTAAGAATCGTGATGAGTACAACAAGTTGTTCGACAAACGCATGATTGA GATTGTATTGCCCAAACATTTGAAAAACGAGGATGAGAAAGAGGTGGTTGCCTCATTCAAGAATTTCACCACGTAC TTCACGGGATTCTTCACCAATCGTAAGAATATGTATTCCGATGGAGAGGAGTCTACCGCCATCGCCTACCGTTGTA TCAACGAGAACCTTCCTAAGCATTTAGACAATGTAAAAGCATTTGAAAAGGCCATCTCTAAATTGTCGAAGAATGC GATTGATGACCTTGATGCCACCTATTCGGGGCTGTGCGGCACTAATCTTTATGACGTATTTACGGTGGACTATTTC AACTTTCTTTTGCCGCAATCTGGAATCACGGAGTATAACAAAATTATCGGTGGTTACACGACTTCGGATGGCACCA AAGTCAAGGGGATCAACGAGTACATTAACCTGTATAACCAGCAGGTTTCTAAACGCGATAAGATTCCGAATTTACA AATCCTGTACAAACAAATTTTGTCAGAATCGGAGAAGGTATCGTTTATCCCGCCGAAATTTGAGGATGATAATGAG CTGTTGTCGGCAGTAAGTGAATTTTATGCCAACGATGAGACCTTCGACGAAATGCCCTTGAAGAAAGCGATCGACG AGACAAAACTTCTTTTTGGAAATTTGGACAATTCAAGTCTGAATGGAATTTACATCCAAAATGATCGCAGTGTCAC AAACTTGTCGAATAGTATGTTTGGGAGCTGGAGCGTTATTGAAGACCTGTGGAACAAAAACTATGACTCGGTGAAC TCTAACTCACGCATCAAGGACATTCAGAAACGCGAGGACAAACGCAAAAAGGCGTATAAAGCTGAGAAGAAGTTAA GCTTGAGTTTTTTACAGGTTCTGATTTCCAACTCCGAAAACAATGAAATTCGCGAGAAGTCAATCGTGGATTATTA CAAGACCAGTTTGATGCAATTAACAGACAACCTGAGCGACAAGTACAATGAAGTTGCTCCTTTATTGAACGAAAAT TATTCCAACGAGAAAGGATTAAAGAATGATGATAAATCCATCAGTTTAATTAAGAACTTTCTGGATGCTATCAAGG AGATCGAAAAGTTTATTAAGCCACTTTCTGAGACCAACATTACTGGAGAAAAAAATGACCTGTTTTACTCGCAATT CACACCCTTGTTGGACAATATCAGCCGTATCGATATTTTATATGATAAGGTGCGTAATTATGTTACTCAAAAGCCC TTTTCGACCGACAAAATTAAACTGAACTTTGGGAATTATCAACTTTTGAATGGATGGGATAAAGACAAAGAACGCG AATACGGTGCAGTTCTGCTGTGCCGTGATGAGAAATATTATTTGGCGATTATCGACAAATCCAACAATCGCATCTT GGAAAATATTGACTTCCAAGACTGCGATGAGAGTGATTGCTATGAGAAGATTATCTATAAATTGCTGCCTACGCCG AATAAGATGTTACCGAAGGTTTTCTTCGCGAAAAAGCATAAGAAGCTTCTGTCGCCCAGTGACGAGATTTTAAAAA TCCGCAAGAATGGGACATTCAAGAAGGGCGATAAGTTCTCGCTTGATGACTGCCATAAGCTTATTGACTTTTATAA AGAATCATTCAAGAAGTATCCAAACTGGCTGATTTATAATTTTAAATTCAAAAAGACTAACGAATATAATGATATT CGTGAATTCTATAATGACGTCGCGTTGCAAGGTTATAACATTAGCAAGATGAAAATCCCCACCAGCTTCATTGACA AGTTAGTAGATGAAGGGAAAATTTATCTTTTCCAGCTTTATAATAAGGATTTTTCACCGCACTCGAAAGGTACGCC TAATCTGCACACATTGTATTTTAAAATGTTATTCGATGAACGTAATCTTGAGGATGTGGTCTACAAGTTAAATGGG GAGGCCAAAATGTTCTATCGCCCAGCGAGCATTAAGTACGATAAACCGACTCATCCTAAAAACACCCCAATTAAGA ACAAGAACACATTAAACGACAAGAAAGCTTCCACTTTTCCTTATGACTTGATTAAGGACAAACGCTATACTAAGTG GCAGTTCTCCCTTCACTTCTCGATTACCATGAATTTCAAGGCTCCTGATAAAGCCATGATTAACGACGATGTTCGT AATCTTTTAAAGTCGTGTAATAACAACTTCATCATCGGCATTGATCGCGGAGAACGCAATCTTTTGTACGTTTCCG TCATCGATTCGAATGGTGCTATTATTTACCAGCACTCTCTTAATATTATTGGAAATAAGTTCAAAGGCAAGACATA CGAGACAAATTACCGCGAGAAATTGGCCACACGTGAAAAAGAGCGTACCGAACAGCGCCGTAATTGGAAGGCGATT GAGAGCATCAAAGAATTGAAGGAAGGCTACATTAGTCAGGCAGTGCACGTGATTTGTCAACTGGTTGTTAAGTACG ATGCTATTATTGTAATGGAAAAGTTAACGGACGGTTTTAAACGCGGGCGTACAAAGTTCGAGAAGCAAGTATATCA AAAGTTCGAAAAAATGTTGATTGACAAACTTAACTATTATGTGGACAAGAAACTGGATCCGGACGAAGAGGGGGGT TTGTTACACGCGTACCAGTTGACCAACAAGTTAGAAAGCTTCGATAAATTGGGGACCCAATCTGGTTTCATTTTCT ATGTCCGCCCCGACTTTACCTCAAAGATTGATCCTGTAACTGGGTTTGTGAACTTATTATATCCGCGCTATGAGAA CATCGATAAAGCAAAAGACATGATTTCACGCTTTGATGATATTCGCTACAACGCTGGGGAGGACTTTTTTGAATTC GATATTGACTACGATAAATTCCCGAAAACAGCTTCAGATTATCGTAAGAAGTGGACGATTTGTACGAACGGCGAAC GTATCGAGGCTTTCCGCAACCCAGCTAATAACAATGAGTGGTCGTATCGTACTATTATTTTGGCTGAGAAATTCAA AGAACTTTTTGACAATAACTCTATTAACTACCGCGATTCTGACGACCTTAAAGCGGAAATTCTTAGCCAGACAAAA GGAAAATTCTTCGAGGACTTCTTCAAACTGCTGCGTCTGACCCTGCAAATGCGTAATTCCAATCCCGAGACTGGGG AAGACCGTATCCTGAGCCCAGTGAAGGATAAAAACGGTAACTTCTACGATTCATCAAAATATGATGAGAAAAGTAA GTTACCATGCGACGCAGATGCTAACGGTGCGTACAACATTGCGCGTAAAGGACTTTGGATCGTAGAACAATTTAAA AAGTCAGATAATGTGTCTACGGTGGAGCCCGTAATTCATAATGACAAATGGCTTAAGTTCGTGCAGGAAAATGACA TGGCGAACAATTAA SEQ ID NO: 129 ART32_Optimized2 ATGCAAGAGCGTAAAAAAATCAGCCACTTGACTCACCGTAATAGTGTGTTAAAAACAATCGGAATGCAGCTTAATC CCGTAGGTAAGACCATGGATTACTTTCAGGCGAAACAAATTTTGGAAAACGATGAAAAACTTAAGGAAGATTACCA GAAGATTAAAGAGATCGCTGATCGCTTTTATCGCAACTTGAATGAAGACGTTTTAAGTAAGACAGGCCTGGACAAA CTTAAGGACTACGCTGAGATTTATTACCATTGCAATACAGACGCCGATCGCAAGCGTCTTAATAAGTGCGCGTCCG AGCTTCGTAAGGAGATTGTGAAGAACTTCAAGAACCGCGATGAATATAATAAATTGTTTGATAAACGTATGATCGA GATTGTCTTGCCAAAACACTTGAAGAACGAGGACGAGAAAGAGGTGGTGGCATCTTTTAAGAATTTCACGACATAT TTCACTGGCTTCTTTACAAATCGCAAAAACATGTATAGTGACGGTGAGGAGAGCACGGCAATTGCTTACCGCTGTA TCAACGAGAATTTGCCAAAACACTTGGACAATGTCAAGGCGTTTGAGAAAGCTATTTCAAAACTGTCGAAAAATGC CATCGACGATCTTGACGCAACCTACTCAGGGCTTTGTGGAACAAACCTGTATGATGTTTTTACTGTAGATTACTTC AACTTCTTGTTGCCACAAAGTGGGATTACCGAATACAATAAGATTATTGGCGGGTATACCACATCAGACGGCACAA AAGTGAAGGGAATCAATGAATACATCAATCTGTATAACCAACAGGTTTCTAAACGTGACAAGATTCCGAACCTTCA AATCTTATATAAGCAAATCTTATCTGAATCTGAGAAAGTTTCATTCATCCCACCTAAGTTTGAGGACGATAATGAA CTGCTTTCGGCCGTAAGCGAGTTCTATGCAAACGATGAAACATTTGACGAAATGCCTTTGAAGAAGGCCATCGACG AGACTAAACTTCTTTTTGGCAACCTTGACAACTCGTCATTGAATGGGATCTATATCCAAAATGACCGTTCTGTGAC GAATCTTTCGAATTCGATGTTTGGGTCGTGGTCAGTCATTGAGGATCTTTGGAACAAAAATTACGACAGTGTCAAT AGTAATAGCCGTATCAAAGACATCCAGAAACGCGAAGATAAACGTAAGAAGGCCTATAAAGCTGAGAAGAAGCTGT CACTGAGTTTTTTACAAGTTTTGATCAGTAATTCGGAGAACAACGAGATCCGCGAAAAGAGTATTGTGGATTACTA TAAAACGTCGCTTATGCAATTAACAGACAATCTTTCAGATAAGTATAACGAAGTCGCCCCACTTCTGAATGAGAAT TACAGTAACGAAAAAGGCTTAAAAAACGACGACAAATCTATCTCTCTTATTAAGAACTTCTTGGATGCTATCAAAG AGATTGAAAAATTCATTAAACCACTGTCAGAAACGAACATTACAGGAGAGAAGAATGATCTGTTCTATAGTCAATT CACTCCATTGTTAGACAATATTAGCCGTATCGATATTTTATATGACAAGGTCCGCAACTATGTCACGCAAAAACCA TTTTCTACTGATAAGATTAAATTGAATTTCGGGAACTACCAATTACTGAACGGGTGGGATAAGGATAAAGAGCGCG AATACGGCGCCGTGTTACTGTGCCGTGATGAAAAGTACTACTTGGCTATCATCGACAAGTCTAATAACCGCATTTT AGAAAATATTGACTTCCAGGACTGTGACGAATCAGATTGTTATGAGAAGATTATTTATAAATTATTACCTACGCCT AATAAGATGTTACCTAAAGTATTTTTCGCTAAAAAACACAAGAAGCTTCTGTCTCCGTCAGATGAGATCCTGAAAA TCCGTAAGAACGGGACCTTTAAGAAAGGAGACAAATTCAGTCTGGACGATTGCCATAAATTGATTGACTTCTATAA AGAGAGCTTCAAGAAATACCCCAACTGGTTAATTTATAATTTCAAGTTTAAAAAAACAAATGAATATAACGACATT CGTGAATTCTATAACGATGTTGCATTGCAAGGTTACAATATCTCCAAAATGAAGATCCCTACATCGTTCATCGATA AATTGGTCGACGAGGGAAAGATTTACTTGTTCCAGCTGTATAACAAGGATTTTTCGCCTCACTCTAAGGGCACGCC GAACTTGCATACGTTATACTTCAAGATGTTATTCGACGAGCGTAATCTTGAGGACGTGGTGTATAAGTTAAATGGT GAGGCCAAAATGTTTTATCGCCCGGCATCAATTAAGTATGATAAACCTACCCATCCCAAGAATACTCCGATCAAGA ATAAGAATACGCTGAACGATAAGAAGGCCAGCACTTTTCCCTATGATTTGATCAAAGATAAACGTTACACAAAGTG GCAGTTTTCTCTTCATTTTTCGATCACTATGAACTTCAAGGCGCCCGACAAAGCTATGATCAATGATGACGTCCGT AATTTGTTGAAGAGCTGTAACAATAATTTTATCATCGGCATCGACCGCGGTGAACGTAATCTTTTATATGTTTCAG TTATCGACAGCAACGGGGCTATTATCTACCAACACTCGTTAAATATTATTGGAAATAAGTTCAAAGGCAAAACCTA CGAAACAAATTATCGCGAAAAACTGGCAACGCGCGAGAAGGAACGTACAGAACAGCGCCGTAATTGGAAGGCCATC GAGAGTATTAAGGAATTGAAAGAGGGATACATTTCGCAAGCAGTTCACGTGATCTGCCAGTTAGTAGTCAAATACG ATGCTATTATCGTCATGGAGAAGTTAACTGACGGATTCAAGCGTGGGCGTACCAAGTTCGAGAAACAAGTATATCA AAAGTTCGAAAAGATGCTGATTGACAAGCTTAACTATTATGTGGATAAGAAGCTGGACCCCGACGAAGAGGGCGGT CTTCTTCATGCGTATCAGTTAACGAATAAATTAGAATCTTTCGACAAACTTGGGACACAATCTGGGTTCATCTTTT ACGTCCGCCCGGATTTCACAAGCAAAATTGATCCTGTTACTGGATTCGTAAACTTGCTTTATCCCCGCTATGAGAA TATTGATAAAGCAAAGGATATGATTAGTCGTTTTGATGATATCCGCTATAATGCAGGTGAGGACTTTTTTGAATTC GATATCGACTACGACAAATTTCCTAAGACTGCTTCCGACTATCGTAAGAAATGGACAATTTGCACAAACGGTGAGC GCATCGAGGCTTTTCGCAATCCCGCAAACAATAACGAATGGTCATATCGCACAATTATCTTGGCTGAAAAGTTCAA AGAACTGTTCGATAACAATAGTATTAACTATCGTGATTCAGACGATCTTAAGGCTGAAATCCTGTCGCAAACGAAA GGCAAGTTCTTTGAAGATTTCTTCAAGCTTTTGCGTCTGACACTTCAAATGCGCAATTCAAATCCTGAGACTGGAG AAGATCGCATTCTGTCCCCAGTCAAAGATAAGAATGGGAACTTCTACGACTCATCTAAATACGACGAGAAGAGTAA ACTTCCATGTGACGCAGATGCGAATGGTGCGTATAACATCGCTCGTAAAGGCTTGTGGATTGTGGAACAGTTCAAA AAATCCGATAATGTTTCAACAGTAGAGCCGGTGATCCACAATGACAAATGGTTGAAGTTTGTGCAAGAGAATGACA TGGCCAATAACTAA SEQ ID NO: 130 ART32_Optimized3 ATGCAAGAGCGTAAGAAAATCAGCCACCTGACGCATCGTAACTCCGTCTTAAAAACAATCGGTATGCAGCTGAACC CCGTGGGAAAAACCATGGACTACTTCCAGGCAAAACAGATTCTTGAGAATGATGAAAAATTAAAAGAAGACTATCA AAAGATCAAGGAAATCGCGGATCGCTTCTATCGCAATCTTAATGAGGATGTGTTATCGAAAACCGGACTTGACAAG CTTAAAGACTATGCAGAGATTTACTATCATTGTAATACGGATGCAGACCGCAAGCGTTTAAATAAATGCGCATCTG AGCTTCGCAAAGAAATTGTGAAGAATTTCAAGAATCGTGATGAATATAACAAATTGTTCGACAAGCGTATGATTGA GATTGTGTTGCCCAAGCATCTGAAAAATGAGGACGAGAAAGAAGTCGTTGCATCTTTCAAAAACTTTACGACGTAT TTCACTGGGTTTTTTACCAATCGTAAGAATATGTATTCTGATGGAGAAGAAAGTACGGCCATCGCCTATCGCTGCA TTAACGAGAATTTACCCAAGCATTTGGACAATGTTAAAGCATTCGAAAAGGCCATTTCTAAACTTAGTAAAAATGC GATCGATGATCTTGACGCCACATATAGTGGGTTGTGTGGTACAAACCTTTATGACGTGTTTACCGTAGATTATTTC AATTTCTTACTTCCTCAATCTGGCATTACGGAGTATAATAAAATTATCGGCGGCTATACGACAAGCGATGGAACGA AGGTAAAAGGGATCAATGAGTACATCAATTTGTATAACCAGCAGGTGTCCAAACGTGACAAGATCCCAAATTTGCA GATCTTATACAAACAAATTCTTTCAGAGTCTGAAAAAGTTAGTTTTATTCCCCCTAAGTTTGAGGACGACAACGAG CTGCTTTCCGCAGTGTCGGAATTTTACGCAAACGATGAGACTTTTGACGAGATGCCATTGAAGAAGGCGATCGACG AGACCAAGTTGTTATTTGGAAACTTAGACAATTCTTCCTTGAACGGCATCTACATCCAAAACGATCGTAGTGTTAC CAATTTATCCAACTCGATGTTTGGGTCATGGTCAGTCATTGAGGACCTTTGGAATAAGAATTACGACAGCGTCAAT AGCAACTCTCGCATCAAAGATATTCAGAAACGCGAAGATAAGCGTAAAAAGGCCTATAAGGCCGAAAAAAAGTTAA GTCTTTCCTTTCTGCAGGTGTTAATTTCGAATAGTGAGAATAATGAAATTCGCGAAAAATCAATTGTTGACTACTA CAAAACATCCTTAATGCAACTTACCGATAACTTATCCGATAAATATAATGAGGTGGCCCCATTACTTAACGAAAAT TATAGCAATGAGAAAGGATTAAAGAACGACGATAAATCCATCTCTCTTATCAAAAACTTCTTAGATGCAATTAAAG AAATTGAAAAGTTCATTAAACCATTAAGTGAGACCAACATCACAGGCGAAAAGAATGACTTGTTCTACTCTCAATT CACGCCCCTTTTGGATAACATTAGTCGCATTGACATCTTGTACGACAAGGTTCGTAATTACGTTACACAAAAACCG TTTTCGACTGACAAAATTAAGCTGAATTTTGGTAATTACCAGTTACTTAATGGTTGGGATAAAGATAAAGAGCGTG AGTACGGAGCCGTTTTGTTATGCCGCGATGAAAAGTACTACCTTGCCATCATCGATAAGTCGAACAATCGTATCCT TGAAAACATTGACTTCCAGGACTGCGACGAGTCCGACTGTTACGAAAAAATCATTTATAAACTTTTACCAACACCA AATAAGATGTTACCGAAAGTGTTCTTTGCGAAAAAACACAAAAAACTGTTATCGCCGTCAGATGAAATCTTAAAAA TCCGCAAGAACGGGACATTTAAAAAGGGCGACAAATTCAGTTTAGACGATTGCCATAAGCTTATCGATTTCTATAA AGAATCATTTAAGAAATACCCCAACTGGCTGATTTATAACTTTAAGTTCAAGAAAACTAATGAGTACAATGACATT CGCGAGTTCTATAATGACGTAGCGTTGCAAGGGTACAACATCTCCAAGATGAAAATTCCTACTTCTTTCATCGATA AACTGGTTGACGAGGGTAAGATCTACTTATTTCAGCTGTATAACAAGGATTTCTCTCCCCATTCAAAAGGAACACC TAACTTACATACGTTATACTTCAAAATGCTTTTCGACGAGCGCAACCTGGAGGATGTAGTTTATAAACTGAATGGA GAGGCGAAGATGTTCTACCGTCCAGCCAGCATTAAGTATGATAAACCGACCCACCCTAAAAACACCCCTATCAAAA ATAAAAATACTCTGAACGATAAAAAGGCAAGTACCTTTCCCTATGACCTGATTAAAGACAAACGCTATACTAAATG GCAGTTCTCTCTGCACTTCAGCATCACAATGAATTTTAAAGCACCGGACAAGGCAATGATCAACGACGATGTGCGC AATTTACTTAAGAGTTGTAACAACAACTTCATTATTGGAATCGACCGCGGCGAGCGCAACCTTCTGTATGTCTCTG TCATCGACTCAAATGGTGCCATCATCTATCAGCATTCGTTAAATATTATCGGCAATAAGTTTAAAGGGAAGACATA CGAGACCAATTACCGTGAGAAACTGGCGACCCGCGAGAAAGAGCGCACTGAGCAACGTCGTAATTGGAAAGCTATT GAATCTATCAAGGAACTTAAAGAGGGCTATATTTCTCAGGCAGTCCATGTGATTTGTCAGCTTGTAGTGAAGTATG ATGCGATTATCGTAATGGAGAAATTAACTGATGGCTTCAAGCGCGGGCGCACCAAATTCGAGAAGCAGGTATACCA AAAATTTGAGAAAATGTTGATTGATAAACTTAACTACTATGTGGATAAGAAGCTGGACCCCGACGAGGAGGGCGGA CTTCTGCATGCATACCAGTTAACGAACAAATTAGAATCATTTGATAAATTAGGTACGCAATCTGGCTTCATTTTTT ACGTGCGCCCCGATTTCACTTCAAAAATTGATCCGGTCACGGGGTTCGTTAATCTGCTGTATCCTCGTTATGAGAA CATTGACAAAGCTAAGGATATGATTAGCCGTTTTGATGACATTCGTTATAATGCGGGCGAAGACTTTTTTGAATTT GATATCGATTATGATAAATTTCCCAAGACGGCTAGCGACTACCGCAAAAAATGGACAATCTGTACAAATGGCGAAC GCATCGAAGCATTTCGCAACCCTGCCAATAACAACGAATGGAGTTATCGCACCATCATCCTGGCCGAAAAGTTCAA AGAGTTGTTTGACAACAACAGCATTAATTACCGTGATAGTGATGACTTGAAAGCTGAGATCCTGTCACAGACTAAA GGGAAGTTTTTCGAGGATTTTTTCAAGCTGTTACGTCTTACTCTGCAGATGCGTAATTCGAACCCAGAGACCGGTG AAGATCGTATCTTATCACCTGTAAAAGATAAAAATGGCAATTTTTATGATAGTTCGAAATACGATGAAAAGAGTAA ATTGCCTTGCGATGCCGATGCGAATGGAGCTTATAACATCGCACGCAAGGGATTATGGATCGTGGAGCAATTCAAG AAGTCAGACAATGTGAGCACGGTTGAACCCGTGATCCATAATGATAAGTGGTTAAAATTTGTTCAAGAAAACGACA TGGCTAATAATTAA SEQ ID NO: 131 ART33_WT ATGTCAATCAACATTAACAAATTTTCAGATGAATGTAGAAAAATTGATTTTTTCACTGATTTATACAACA TTCAAAAAACTTTAAGATTCAGCCTTATTCCAATAGGAGCAACTGCTGACAACTTTGAATTTAAAGGCAG ATTATCCAAAGAAAAAGATTTGCTAGATTCTGCAAAGCGTATCAAGGAGTATATTTCAAAGTACCTTGCA GATGAAAGTGATATATGTCTTTCCCAACCCGTAAAGTTAAAGCATCTTGATGAGTACTATGAACTTTATA TCACTAAAGACAGGGATGAACAGAAGTTTAAGTCTGTTGAAGAAAAGTTAAGGAAAGAATTAGCCGATCT TTTAAAAGAAATTTTGAAACGATTAAATAAAAAGATTTTATCTGATTATCTACCTGAGTATCTTGAAGAT GACGAAAAGGCCCTTGAAGATATAGCAAATCTTTCTTCTTTCTCAACTTATTTTAACAGTTATTACGATA ATTGTAAGAATATGTATACAGATAAGGAACAGTCAACTGCAATTCCTTATAGATGTATTAATGATAATTT ACCCAAATTTATTGATAATATGAAAGCATATGAAAAGGCTTTAGAAGAACTAAAGCCAAGTGACCTTGAA GAACTTAGAAATAACTTTAAGGGTGTATATGACACAACAGTTGATGATATGTTTACCTTGGATTATTTCA ATTGTGTTCTTTCACAGTCAGGTATTGATTCCTACAACGCTATTATAGGTAATGACAAGGTTAAGGGGAT TAATGAGTACATTAATCTCCATAACCAAACTGCAGAACAAGGTCATAAAGTCCCTAACCTAAAACGACTA TATAAGCAGATTGGCAGTCAAAAAAAGACTATTTCTTTTCTTCCTAGTAAGTTTGAAAGTGACAATGAAC TCCTAAAAGCAGTTTATGATTTCTATAATACCGGTGATGCTGAAAAGAACTTCACTGCATTAAAAGACAC TATAACTGAATTTGAGAAGATTTTTGATAATCTATCAGAATATAACCTTGATGGTGTGTTTGTAAGGAAT GATATTTCACTTACTAATTTATCACAAAGTATGTTCAATGATTGGTCAGTATTCCGTAATTTATGGAATG ACCAATATGATAAAGTCAATAATCCGGAGAAAGCAAAAGATATTGATAAGTATAATGACAAGAGACATAA AGTCTATAAAAAGTCAGAAAGTTTTTCAATTAATCAGCTACAAGAGTTAATTGCAACAACTCTTGAAGAA GATATTAACAGTAAGAAAATTACAGATTACTTTAGTTGTGATTTTCATAGAGTTACAACAGAAGTTGAAA ATAAATATCAACTAGTAAAAGACTTATTATCTAGTGATTATCCGAAAAATAAAAACCTAAAAACAAGCGA AGAAGATGTAGCACTTATTAAGGACTTTTTAGATAGTGTTAAATCATTAGAAAGTTTTGTGAAAATACTA ACCGGTACCGGCAAAGAAAGTGGCAAGGATGAACTTTTCTATGGTAGTTTTACAAAATGGTTTGATCAGT TGAGATATATTGATAAGCTATATGACAAGGTAAGAAATTACATTACGGAAAAGCCTTATTCACTTGATAA AATTAAGCTGTCTTTTGATAATCCACAGTTCCTAGGTGGATGGCAACATAGCAAAGAAACTGACTATTCA GCACAACTTTTTATGAAAGATGGATTGTATTATCTTGGTGTAATGGACAAAGAAACCAAGAGAGAATTCA AAACTCAGTATAATACTCCTGAAAATGATAGTGATACAATGGTTAAGATTGAGTACAATCAAATCCCAAA TCCGGGTAGAGTTATTCAAAATCTTATGCTTGTTGATGGCAAGATTGTAAAGAAAAACGGTAGAAAGAAT GCTGATGGTGTTAATGCTGTTCTTGAAGAACTAAAGAATCAGTATCTACCTGAAAATATCAATAGAATTA GAAAAACCGAAAGTTATAAAACCACAAGTAATAACTTTAACAAAGATGACCTAAAAGCATATTTAGAGTA CTATATTGCAAGAACTAAGGAATATTATTGCAAGTACAATTTTGTTTTTAAGTCAGCTGATGAGTATGGA AGTTTTAATGAATTTGTTGATGATGTTAACAATCAAGCCTACCAAATTACCAAAGTGAAAGTATCTGAAA AACAATTACTTTCATTAGTAGAACAAGGCAAACTTTATCTTTTCAAAATCTACAACAAGGATTTTTCTGA GTATAGTAAGGGTAAGAAAAACTTACATACTATGTATTTTCAAATGCTATTTGATGACAGAAATCTTGAA AATTTAGTGTACAAGCTACAAGGTGGAGCAGAAATGTTCTATAGACCTGCAAGTATCAAGAAAGATTCAG AATTTAAACATGATGCAAATGTTGAAATTATTAAGCGTACTTGTGAAGATAAAGTAAATGATAAAGACAA TCCTACAGATGATGAGAAAGCTAAGTATTATAGCAAATTTGACTACGATATAGTAAAGAACAAACGCTTT ACTAAAGATCAATTTTCTCTACATTTAACTTTAGCAATGAATTGTAATCAGCCTGACCATTATTGGTTAA ACAATGATGTTAGAGAACTTCTCAAGAAGTCAAATAAAAACCATATTATTGGTATTGATAGAGGTGAAAG AAATCTTATCTATGTAACTATAATTAATAGTGATGGAGTAATAGTTGACCAAATCAACTTCAATATTATT GAAAACAGTTACAATGGTAAAAAATACAAAACTGATTATCAGAAAAAACTTAATCAAAGGGAAGAAGATA GACAAAAGGCAAGAAAAACTTGGAAAACTATTGAAACAATTAAGGAACTGAAAGACGGTTACATTAGTCA GGTTGTACATCAAATTTGTAAACTTATTGTTCAATATGATGCAATTGTTGTGATGGAAAACCTTAATGGT GGTTTCAAAAGAGGTAGAACAAAAGTTGAAAAACAAGTTTATCAAAAGTTTGAAACTATGCTTATTAATA AGCTGAATTATTATGTTGATAAAGGTACTGACTATAAAGAATGTGGTGGACTTTTAAAGGCATATCAGCT TACAAATAAGTTTGAAACATTTGAAAGAATCGGTAAACAAAGTGGTATTATCTTTTATGTTGACCCATAT CTGACAAGTAAGATTGACCCGGTAACAGGTTTTGCAAATCTGCTTTATCCTAAGTATGAAACAATACCAA AAACTCACAACTTCATTAGCAATATTGATGATATTCGATATAACCAAAGTGAAGATTACTTTGAGTTTGA TATTGATTATGATAAGTTCCCGCAAGGTAGTTACAATTATCGTAAGAAGTGGACAATCTGTTCTTATGGC AACAGAATTAAGTATTACAAAGATTCAAGAAATAAAACAGCTAGTGTAGTTGTTGATATTACTGAAAAGT TCAAGGAAACTTTTACTAACGCAGGTATTGACTTTGTTAATGATAATATTAAGGAAAAGTTATTGTTAGT TAATAGTAAGGAACTCCTAAAGTCATTTATGGATACTCTTAAACTGACTGTTCAGTTGAGAAATTCTGAA ATTAATAGTGATGTTGATTACATTATCTCACCGATAAAGGATAGAAACGGTAACTTCTATTATAGCGAAA ACTACAAAAAGTCTAATAATGAAGTACCGTCACAACCACAAGACGGTGATGCAAATGGTGCATATAACAT TGCACGAAAAGGATTGATGATTATTAACAAACTAAAAAAAGCCGATGATGTAACCAATAATGAGTTGTTG AAAATCAGCAAAAAGGAATGGCTGGAATTTGCTCAAAAAGGTGATTTAGGTGAGTGA SEQ ID NO: 132 ART33_Optimizedl ATGAGTATCAATATCAATAAGTTCAGCGATGAGTGTCGCAAAATTGACTTTTTTACAGACCTTTACAACATTCAAA AGACACTGCGTTTTAGCTTGATCCCAATCGGTGCTACAGCGGACAACTTTGAATTTAAGGGGCGCCTTTCTAAAGA GAAGGACCTGCTTGACTCAGCCAAGCGTATCAAGGAGTACATTAGCAAGTACCTGGCTGACGAATCGGACATCTGC TTATCTCAACCGGTCAAATTAAAGCATTTGGACGAGTACTATGAGTTATATATTACCAAAGACCGCGACGAACAGA AATTCAAGAGTGTTGAAGAGAAATTACGCAAGGAGCTTGCCGATTTGCTGAAAGAGATTTTAAAACGCCTGAACAA AAAAATCTTAAGTGATTACTTACCCGAGTACTTAGAGGACGATGAAAAAGCGCTTGAAGACATTGCTAATTTGTCT TCTTTTTCGACTTACTTTAATTCATATTATGATAATTGTAAAAATATGTACACAGACAAAGAACAAAGTACCGCGA TTCCTTACCGCTGTATTAATGACAATTTACCAAAATTTATCGATAATATGAAGGCGTATGAAAAAGCTTTAGAGGA GCTGAAGCCTAGTGATTTGGAAGAATTGCGCAATAACTTTAAAGGCGTGTACGACACCACCGTCGATGACATGTTC ACCTTGGACTATTTCAATTGTGTCCTGTCCCAGAGTGGTATTGACTCTTACAATGCGATTATTGGCAATGACAAAG TTAAAGGTATCAACGAATATATCAATCTGCATAACCAGACAGCAGAACAGGGCCATAAAGTCCCAAACCTGAAACG TCTGTACAAACAGATCGGAAGCCAAAAAAAAACCATCTCGTTCCTTCCATCAAAATTCGAATCAGATAACGAGCTT CTTAAGGCTGTCTACGATTTTTATAACACAGGAGACGCTGAAAAAAACTTCACGGCCCTGAAGGATACGATTACAG AATTCGAAAAGATTTTTGATAACCTGAGCGAATATAACCTTGATGGCGTCTTCGTGCGCAATGACATTTCGCTGAC AAATCTGTCCCAGTCTATGTTCAATGATTGGTCTGTTTTCCGTAACCTGTGGAATGATCAGTATGACAAAGTAAAT AACCCTGAGAAAGCAAAGGATATCGACAAATACAATGACAAACGTCATAAGGTTTATAAAAAATCCGAATCCTTCT CCATTAATCAGTTGCAAGAACTTATCGCAACAACATTGGAGGAAGACATCAACTCGAAAAAGATCACTGATTACTT CTCGTGTGACTTCCATCGCGTAACGACTGAAGTGGAAAACAAGTACCAACTGGTAAAAGACCTGTTGTCTTCAGAT TATCCCAAGAACAAGAATTTAAAGACAAGTGAAGAAGATGTGGCACTTATTAAAGATTTCTTAGATTCTGTCAAGT CCCTTGAATCCTTCGTAAAAATTCTGACAGGCACGGGTAAGGAGAGTGGAAAAGACGAGTTGTTTTACGGTAGTTT CACGAAATGGTTTGATCAGCTTCGCTATATCGATAAGTTATACGATAAGGTACGCAACTACATCACGGAGAAACCA TATTCCCTTGATAAGATTAAGTTATCCTTTGACAATCCCCAATTCTTAGGTGGATGGCAGCACTCTAAGGAGACAG ATTATTCCGCTCAACTGTTCATGAAAGACGGTCTGTACTATTTAGGTGTCATGGACAAAGAAACAAAGCGTGAATT CAAGACACAATACAACACACCTGAAAATGATTCCGATACAATGGTAAAGATCGAGTACAACCAAATTCCTAACCCT GGTCGCGTTATCCAGAATTTAATGTTAGTTGATGGCAAGATTGTTAAGAAAAATGGTCGCAAAAATGCCGATGGCG TTAATGCTGTACTTGAAGAGTTGAAAAACCAATATTTACCTGAGAACATTAATCGTATCCGTAAGACGGAATCTTA TAAGACAACTTCGAATAATTTCAATAAGGACGACCTTAAAGCGTACTTAGAATATTACATCGCTCGCACAAAAGAG TACTACTGTAAATACAACTTCGTGTTCAAGAGTGCGGATGAATACGGCAGTTTCAATGAGTTTGTGGACGATGTCA ACAATCAGGCGTATCAGATTACTAAAGTAAAAGTGTCTGAAAAACAACTTTTGTCGCTTGTTGAACAGGGCAAATT ATACCTGTTTAAAATCTATAATAAGGATTTTAGCGAATATTCGAAAGGAAAGAAAAATCTGCACACCATGTACTTC CAAATGCTGTTTGATGACCGCAATCTTGAGAATTTAGTTTATAAGTTGCAGGGTGGGGCTGAGATGTTTTACCGTC CAGCGTCAATTAAAAAAGACTCGGAGTTTAAGCATGACGCAAATGTCGAAATTATTAAACGCACGTGCGAGGACAA GGTAAACGATAAGGATAACCCAACGGACGACGAGAAAGCAAAATATTATTCTAAGTTCGATTACGACATTGTGAAA AATAAGCGCTTCACCAAGGACCAATTCTCACTTCATCTTACATTGGCAATGAATTGCAATCAGCCCGATCATTATT GGTTAAATAACGATGTTCGCGAGTTATTGAAGAAGAGTAATAAGAACCACATTATCGGTATCGACCGTGGCGAGCG CAATTTGATTTATGTAACTATCATCAACAGTGACGGTGTGATTGTCGATCAGATTAACTTTAATATTATCGAGAAC TCTTATAACGGCAAGAAATACAAGACAGACTATCAAAAAAAGCTGAATCAACGCGAAGAAGATCGTCAAAAGGCAC GTAAGACCTGGAAGACCATCGAGACAATCAAAGAGTTAAAGGATGGCTACATTTCACAGGTCGTGCACCAAATTTG TAAATTGATTGTGCAGTATGATGCAATTGTAGTCATGGAAAATTTGAATGGTGGGTTCAAACGCGGTCGCACCAAG GTCGAAAAGCAAGTCTATCAGAAATTCGAGACCATGCTTATCAATAAACTTAATTATTACGTTGACAAGGGAACAG ACTACAAAGAATGCGGCGGATTATTAAAAGCGTACCAATTGACAAACAAATTTGAGACGTTCGAACGTATCGGCAA GCAAAGCGGTATTATCTTTTACGTGGACCCTTACCTGACTTCTAAGATCGATCCTGTAACGGGCTTCGCGAACCTG TTATACCCGAAATATGAGACGATCCCCAAAACTCACAACTTCATCTCCAATATCGACGACATTCGTTATAATCAAA GCGAAGACTACTTTGAGTTCGATATTGATTACGACAAATTTCCACAGGGCTCCTATAACTATCGCAAGAAATGGAC TATTTGTAGTTATGGAAATCGCATTAAATATTACAAAGATAGTCGTAATAAAACTGCGAGCGTCGTAGTAGATATC ACAGAGAAGTTCAAGGAGACTTTTACTAATGCCGGGATTGACTTCGTCAATGACAACATCAAGGAAAAGTTATTGC TGGTAAACTCGAAAGAATTGCTGAAAAGTTTTATGGATACGTTGAAGTTGACAGTACAGTTGCGCAACTCAGAAAT CAATAGTGATGTGGACTATATTATTTCCCCCATTAAAGACCGCAATGGAAATTTCTACTATAGTGAAAATTACAAA AAGTCTAACAATGAGGTACCCTCCCAGCCTCAGGACGGCGATGCTAACGGCGCATACAATATTGCGCGTAAAGGCC TGATGATCATTAACAAGCTTAAGAAGGCGGATGATGTTACAAACAATGAATTACTGAAGATCTCCAAGAAGGAGTG GTTGGAATTTGCTCAGAAAGGAGACCTTGGTGAGTGA SEQ ID NO: 133 ART33_Optimized2 ATGTCTATTAACATTAACAAATTCAGCGACGAATGTCGTAAAATCGATTTTTTTACAGACCTTTACAACATCCAAA AGACGTTGCGTTTTTCGTTGATCCCTATCGGGGCAACAGCGGACAACTTTGAATTCAAAGGGCGTCTGAGCAAAGA AAAGGATCTTTTGGATTCAGCAAAACGTATCAAAGAATACATTAGTAAATATTTAGCGGACGAATCGGACATTTGT TTATCTCAGCCGGTTAAATTGAAGCACTTAGACGAGTACTATGAACTGTACATCACCAAGGATCGTGATGAGCAAA AATTCAAATCTGTGGAGGAAAAGCTTCGCAAGGAACTGGCGGACCTTTTAAAGGAAATTTTAAAACGCTTGAACAA GAAGATCCTTTCTGACTACTTACCGGAATACTTGGAGGACGACGAAAAAGCTCTGGAGGACATTGCCAACCTTAGT TCTTTTAGTACGTACTTTAACTCGTATTACGATAATTGCAAAAACATGTACACCGACAAAGAGCAGTCGACTGCGA TCCCGTATCGTTGTATTAATGACAACCTTCCAAAGTTCATTGATAACATGAAGGCTTATGAAAAGGCTTTGGAGGA ATTAAAACCATCCGACCTTGAGGAATTACGCAACAACTTCAAGGGAGTATACGATACGACAGTTGACGACATGTTC ACTTTAGATTACTTCAACTGTGTACTGAGCCAGTCGGGCATTGACTCCTATAACGCTATCATTGGGAACGACAAGG TAAAAGGCATCAACGAATACATCAACCTTCATAATCAAACGGCGGAGCAAGGTCACAAAGTCCCAAATTTGAAACG TCTTTACAAACAAATCGGCTCGCAGAAGAAGACGATTAGCTTCCTGCCCTCGAAGTTCGAATCCGACAATGAATTG TTAAAGGCCGTATATGACTTCTACAACACTGGCGATGCCGAAAAAAACTTTACTGCCTTAAAAGATACCATTACTG AGTTTGAAAAGATCTTTGATAATCTGTCAGAGTACAACCTTGATGGGGTGTTCGTACGCAACGACATTTCACTTAC TAATCTGTCCCAGAGCATGTTTAACGACTGGAGTGTATTTCGCAATTTATGGAATGATCAATATGACAAAGTCAAC AACCCGGAGAAAGCAAAAGACATTGATAAATACAATGACAAACGCCACAAAGTTTATAAAAAAAGTGAGTCGTTTA GTATCAATCAGTTGCAGGAGTTAATTGCAACTACCCTTGAGGAAGATATCAATAGCAAAAAAATCACGGATTACTT TTCATGCGATTTCCACCGCGTCACCACCGAAGTCGAGAATAAATACCAATTGGTAAAGGATCTGTTATCCAGCGAT TACCCAAAAAATAAAAACTTGAAAACGTCCGAGGAAGATGTCGCGTTGATCAAGGACTTTCTTGATTCCGTGAAGT CTTTAGAGTCATTCGTAAAAATTTTAACCGGAACGGGAAAGGAAAGCGGTAAAGATGAATTATTCTATGGTTCCTT TACTAAATGGTTCGACCAACTGCGTTATATCGACAAATTGTATGATAAGGTCCGTAACTATATTACAGAGAAACCA TACTCCCTTGACAAAATTAAATTAAGTTTTGATAATCCCCAGTTTCTGGGGGGATGGCAGCATTCCAAAGAGACTG ACTACTCCGCTCAGTTGTTCATGAAGGATGGGTTATATTATCTTGGTGTCATGGACAAAGAAACAAAACGCGAGTT TAAAACTCAGTATAATACACCCGAGAACGACTCAGACACTATGGTTAAAATCGAATATAATCAAATTCCTAATCCA GGGCGCGTCATTCAAAATTTGATGTTGGTGGATGGTAAGATTGTAAAGAAAAATGGCCGTAAGAACGCGGACGGCG TAAATGCGGTGCTTGAAGAACTGAAGAATCAATATTTGCCTGAGAATATCAATCGCATTCGTAAAACCGAATCGTA TAAGACCACATCTAATAATTTCAACAAAGACGACCTTAAGGCGTACCTGGAGTACTATATCGCACGCACGAAAGAA TATTACTGTAAATATAACTTCGTCTTTAAAAGCGCCGACGAATACGGCAGTTTTAATGAATTCGTGGATGATGTCA ATAATCAGGCTTACCAGATCACTAAGGTGAAAGTGTCTGAGAAACAACTGTTATCTCTTGTCGAGCAGGGTAAACT GTATTTATTCAAAATTTATAACAAGGACTTCTCGGAGTACAGCAAAGGAAAAAAGAATCTTCACACTATGTATTTC CAAATGTTATTCGACGATCGTAACTTGGAAAATCTTGTTTACAAGCTTCAGGGGGGAGCAGAAATGTTCTACCGCC CAGCCTCCATTAAAAAAGACTCAGAATTCAAGCATGACGCCAATGTTGAAATCATCAAGCGTACATGCGAGGATAA GGTAAATGACAAAGACAATCCAACAGATGACGAGAAAGCCAAGTACTATAGCAAGTTCGACTATGACATCGTGAAG AATAAGCGCTTTACTAAAGATCAGTTCAGTCTTCACCTTACCCTTGCAATGAACTGTAATCAGCCAGATCACTATT GGCTGAATAACGATGTGCGTGAGTTGCTTAAAAAAAGTAACAAAAATCACATTATTGGGATCGATCGTGGGGAACG TAACCTGATCTACGTGACTATTATTAATTCGGATGGGGTAATTGTAGATCAGATTAATTTTAACATCATCGAGAAC TCGTACAATGGAAAGAAATATAAAACGGACTACCAAAAGAAGTTGAATCAGCGCGAAGAAGACCGTCAAAAGGCCC GTAAGACCTGGAAAACGATCGAGACGATCAAGGAATTAAAAGACGGCTACATTAGTCAGGTTGTCCATCAGATTTG TAAATTAATTGTCCAATATGATGCCATCGTCGTGATGGAGAACTTAAACGGAGGGTTCAAGCGCGGCCGCACGAAA GTGGAAAAGCAAGTGTATCAAAAGTTCGAGACCATGTTGATTAACAAACTTAACTATTATGTTGATAAAGGAACCG ACTACAAAGAGTGTGGTGGCCTGTTAAAAGCGTATCAACTTACTAACAAGTTTGAGACCTTTGAGCGCATCGGCAA ACAGAGCGGCATCATCTTTTATGTAGATCCATACCTTACATCTAAAATCGATCCGGTGACGGGTTTTGCAAATTTG CTGTACCCTAAGTATGAAACTATCCCAAAAACACATAACTTCATCTCCAATATCGATGACATCCGTTACAACCAGT CAGAAGATTACTTCGAGTTCGATATTGACTACGACAAGTTTCCTCAAGGCTCGTATAACTACCGTAAGAAATGGAC TATCTGTTCGTACGGAAATCGCATCAAGTACTATAAGGACAGTCGCAATAAAACAGCCTCGGTAGTCGTCGACATC ACCGAAAAATTTAAGGAGACCTTCACCAACGCGGGCATCGATTTCGTTAACGATAATATCAAGGAAAAGCTTCTTC TTGTCAACTCCAAGGAGCTTTTAAAGTCGTTTATGGATACCCTTAAACTGACAGTTCAGCTTCGCAATTCGGAGAT CAACAGCGATGTGGACTATATTATTAGTCCGATCAAGGATCGCAACGGAAACTTCTACTATAGTGAAAATTACAAG AAGTCAAACAACGAGGTGCCCAGCCAACCACAAGATGGAGACGCTAATGGCGCCTACAACATTGCACGCAAAGGCC TGATGATCATCAACAAATTAAAAAAGGCGGACGACGTGACCAATAACGAGCTGTTGAAAATTTCAAAAAAGGAATG GTTGGAGTTTGCGCAGAAAGGTGATTTAGGTGAGTGA SEQ ID NO: 134 ART33_Optimized3 ATGTCGATCAATATCAATAAATTTTCTGATGAGTGCCGTAAGATCGACTTTTTCACTGATCTTTATAATATCCAAA AAACTTTGCGCTTTAGTCTGATTCCGATTGGCGCTACAGCTGATAATTTTGAGTTTAAAGGTCGCTTATCTAAGGA GAAGGATTTATTGGATTCGGCGAAGCGTATTAAGGAATATATCTCTAAGTATCTGGCTGACGAATCCGATATTTGT TTAAGTCAGCCAGTGAAACTTAAGCACCTGGACGAGTATTATGAGTTGTATATTACCAAAGATCGTGACGAGCAGA AGTTTAAGTCCGTTGAGGAGAAACTGCGTAAGGAATTAGCCGACCTTTTGAAAGAGATCCTGAAGCGTCTGAACAA AAAGATTCTTAGCGACTATTTACCGGAGTACCTTGAGGATGATGAGAAGGCCTTAGAAGACATCGCTAACTTGTCC TCATTCTCTACGTACTTTAATAGTTATTATGACAACTGCAAAAATATGTATACAGATAAAGAGCAATCGACCGCCA TCCCTTACCGTTGCATCAACGATAACTTACCGAAGTTCATCGACAATATGAAAGCCTATGAAAAAGCCTTAGAGGA GCTGAAGCCAAGCGATTTGGAGGAGCTTCGTAACAATTTTAAGGGAGTATACGACACGACCGTGGACGACATGTTC ACTCTGGACTACTTTAACTGCGTGTTGAGTCAGTCTGGCATCGACAGCTATAACGCAATCATTGGCAATGACAAAG TTAAGGGCATCAATGAATATATTAACTTGCACAATCAAACTGCTGAGCAAGGACACAAAGTGCCCAATCTTAAACG TCTTTACAAACAAATCGGTTCACAAAAGAAAACGATTTCTTTTCTTCCTTCCAAATTTGAATCGGATAATGAACTG TTGAAGGCCGTGTATGATTTTTATAATACGGGTGACGCCGAAAAAAACTTTACTGCATTAAAAGACACTATCACAG AATTTGAGAAGATCTTTGATAACTTGTCCGAGTATAACTTGGACGGCGTATTCGTACGCAACGACATTTCCCTGAC AAATCTTTCTCAATCCATGTTCAACGATTGGTCAGTATTTCGTAACTTGTGGAACGACCAGTACGATAAGGTGAAC AATCCCGAAAAAGCAAAAGACATCGACAAGTATAATGATAAACGTCATAAAGTGTATAAGAAATCCGAGAGCTTCT CCATCAACCAACTGCAAGAATTGATTGCGACCACGCTGGAGGAGGATATTAACTCGAAGAAGATCACCGATTACTT CTCCTGTGATTTTCACCGTGTGACGACTGAAGTCGAGAATAAATATCAGCTTGTGAAAGACCTTTTAAGTTCAGAT TACCCAAAAAACAAAAATCTGAAGACCAGTGAGGAAGACGTGGCCTTAATCAAAGATTTCTTAGATAGCGTAAAGT CTCTGGAGAGCTTCGTCAAAATCCTGACGGGCACAGGCAAAGAAAGTGGGAAGGACGAACTTTTCTACGGGAGTTT TACAAAATGGTTCGATCAATTACGTTACATCGATAAGCTGTACGACAAAGTCCGTAACTATATCACCGAGAAACCA TACTCATTGGACAAGATTAAATTGTCCTTCGACAACCCACAGTTTTTGGGTGGTTGGCAGCATTCAAAGGAGACTG ATTATAGTGCGCAGCTTTTTATGAAGGATGGCCTTTATTACCTTGGCGTGATGGATAAGGAGACCAAGCGTGAGTT TAAGACTCAATACAACACTCCCGAGAATGACTCAGATACGATGGTCAAAATCGAATATAATCAGATCCCAAACCCC GGCCGTGTAATCCAGAATCTTATGCTGGTGGACGGTAAAATCGTCAAAAAAAACGGGCGTAAGAATGCCGATGGAG TGAATGCCGTACTTGAAGAGCTTAAGAACCAGTACCTTCCAGAAAACATCAACCGTATCCGTAAGACCGAGTCCTA CAAGACAACGAGCAACAACTTCAACAAGGATGATCTTAAAGCTTACTTGGAGTATTATATTGCCCGCACGAAAGAG TACTATTGCAAGTACAACTTCGTATTTAAATCGGCAGACGAATACGGCAGTTTCAACGAATTTGTGGACGATGTGA ATAATCAGGCATACCAGATTACAAAAGTTAAGGTTTCAGAAAAGCAACTTCTGAGTTTGGTGGAGCAAGGAAAATT GTACCTGTTTAAGATCTACAACAAGGACTTTAGTGAATATTCGAAGGGAAAGAAAAACTTGCATACGATGTATTTT CAAATGTTGTTTGATGACCGTAACCTTGAAAACTTAGTGTACAAACTGCAAGGAGGTGCGGAGATGTTTTACCGCC CTGCTTCAATCAAAAAAGACAGCGAGTTCAAACACGACGCAAATGTAGAGATCATCAAGCGCACGTGCGAAGACAA GGTAAACGATAAAGATAATCCCACAGACGACGAAAAGGCCAAGTACTATTCGAAATTCGATTATGACATCGTTAAG AACAAACGTTTTACAAAGGATCAATTCAGTTTACACTTAACGTTAGCAATGAATTGTAATCAACCGGACCATTACT GGCTGAACAACGACGTACGCGAGTTGCTGAAGAAGTCTAATAAAAATCATATCATTGGTATTGACCGTGGTGAGCG CAATCTGATCTATGTAACGATCATTAATAGTGACGGAGTGATCGTAGATCAAATTAATTTCAACATCATTGAGAAT TCATACAATGGTAAAAAATATAAGACGGACTATCAGAAAAAACTGAACCAACGCGAGGAAGATCGTCAAAAAGCCC GTAAGACGTGGAAAACAATCGAAACCATTAAGGAATTGAAAGACGGGTATATCTCCCAAGTAGTTCACCAAATCTG CAAGCTTATCGTCCAATATGATGCGATCGTTGTCATGGAAAATTTGAATGGTGGGTTTAAGCGCGGCCGCACCAAA GTGGAGAAGCAAGTTTATCAAAAATTCGAAACAATGTTGATCAATAAGTTGAATTATTATGTCGATAAGGGCACCG ATTACAAAGAGTGCGGTGGGTTATTAAAGGCATACCAGCTGACCAACAAATTTGAGACTTTTGAGCGCATCGGGAA ACAATCTGGCATCATCTTCTACGTTGATCCGTATTTAACTTCCAAAATTGATCCCGTGACCGGCTTTGCGAACCTG CTTTATCCTAAGTATGAGACGATCCCCAAGACACATAATTTCATCAGCAACATCGATGACATTCGTTACAATCAAT CAGAAGACTACTTTGAATTCGATATCGACTATGATAAATTCCCACAGGGTTCTTATAACTATCGTAAGAAATGGAC CATCTGTTCATATGGCAATCGTATTAAATATTATAAAGATTCTCGCAACAAAACCGCCTCTGTCGTAGTCGATATC ACCGAGAAGTTCAAGGAAACTTTCACGAACGCTGGAATTGACTTCGTCAACGACAACATCAAAGAAAAACTTCTGT TAGTAAATTCAAAAGAGTTACTGAAAAGCTTTATGGACACGCTTAAGTTGACCGTTCAGTTGCGTAATTCTGAAAT TAACTCGGACGTTGACTATATCATCAGTCCAATCAAAGACCGTAACGGAAACTTCTACTACTCAGAAAACTACAAG AAAAGCAATAACGAGGTGCCCTCGCAACCACAGGATGGCGATGCTAACGGCGCTTATAATATTGCGCGTAAGGGGT TGATGATTATCAATAAGCTGAAGAAGGCAGATGATGTGACAAACAATGAGCTTCTTAAAATTAGCAAAAAGGAATG GTTGGAGTTTGCCCAGAAAGGAGATCTTGGCGAGTGA SEQ ID NO: 135 ART34_WT ATGAAAGCAACATCCATTTGGGACAACTTTACTCGTAAATATTCCGTATCTAAAACACTTCGGTTTGAAT TGAGGCCAGTGGGGAAGACGGAAGAGAATATTGTGAAAAAGGAAATTATTGATGCAGAGTGGATCAGCGG AAAGAATATTCCGAAGGGAACTGATGCTGACCGGGCAAGAGATTATAAAATTGTTAAAAAATTACTGAAT CAACTCCATATTTTATTTATTAATCAGGCATTATCCTCTGAAAATGTGAAAGAGTTCGAAAAAGAGGATA AAAAGAGTAAAACATTCGTTGCATGGAGTGATTTACTTGCAACTCATTTTGACAACTGGATTCAATATAC TCGTGATAAAAGTAATTCCACTGTCTTAAAATCCTTAGAGAAATCGAAAAAGGACCTATATTCAAAACTT GGGAAACTACTCAACTCTAAAGCCAATGCCTGGAAGGCAGAGTTTATAAGTTATCACAAAATTAAAAGCC CGGACAATATAAAGATTAGATTGTCTGCAAGCAATGTTCAGATACTATTTGGAAATACATCGGATCCCAT TCAATTATTGAAATATCAGATTGAGTTAGATAATATAAAATTTCTAAAGGATGATGGATCCGAATATACT ACAAAAGAATTAGCCGACTTGCTTTCTACGTTTGAAAAATTTGGAACTTATTTTTCTGGATTCAATCAAA ATCGAGCAAATGTCTATGACATTGATGGCGAGATTTCTACCTCAATTGCATATAGACTTTTTAATCAAAA TATAGAATTCTTTTTCCAAAACATTAAAAGATGGGAGCAATTCACTAGTTCTATTGGTCATAAAGAAGCA AAGGAAAATCTAAAATTAGTCCAATGGGATATTCAATCAAAACTCAAAGAATTAGATATGGAAATAGTTC AACCAAGATTTAATCTTAAATTTGAAAAATTACTCACTCCACAATCGTTCATTTATCTACTCAACCAAGA AGGCATTGATGCATTCAACACTGTCCTTGGTGGAATTCCCGCAGAAGTGAAAGCTGAGAAAAAGCAGGGA GTAAACGAACTAATCAATTTAACTCGACAGAAATTAAATGAAGACAAGAGAAAATTCCCTTCTCTTCAGA TTATGTATAAACAGATCATGAGTGAAAGAAAAACAAACTTCATTGATCAGTATGAAGATGATGTAGAAAT GTTAAAGGAAATCCAAGAATTTAGTAATGACTGGAATGAAAAAAAGAAAAGGCATTCAGCATCAAGTAAA GAGATCAAAGAAAGTGCAATTGCCTATATTCAAAGAGAGTTTCATGAAACATTCGATTCATTGGAAGAAC GCGCTACCGTAAAAGAAGATTTCTATCTGAGTGAAAAGTCAATTCAGAATCTATCAATTGATATTTTTGG AGGTTATAATACCATCCACAATCTTTGGTATACAGAAGTAGAGGGAATGTTAAAATCCGGCGAACGACCA CTCACTAGAGTAGAAAAAGAAAAACTCAAAAAACAAGAGTATATTTCTTTCGCTCAAATCGAAAGGCTTA TCTCAAAGCATTCACAACAATATCTAGATTCAACGCCAAAAGAGGCCAATGATAGATCTCTTTTCAAAGA GAAGTGGAAAAAAACGTTTAAAAATGGATTTAAGGTATCAGAATATACAAATTTAAAATTGAATGAGCTA ATATCTGAAGGTGAAACATTTCAAAAGATTGATCAAGAAACTGGGAAAGAAACCACAATTAAAATTCCTG GTTTATTTGAAAGTTACGAAAATGCAATATTAGTCGAATCCATAAAAAATCAATCGCTTGGAACAAATAA AAAAGAGTCTGTTCCGTCCATTAAAGAATATCTTGATTCCTGTTTGAGATTATCTAAATTCATTGAATCA TTTTTAGTCAATTCAAAGGATCTAAAAGAAGATCAATCCTTAGATGGTTGCAGCGACTTTCAGAATACGC TTACACAATGGCTCAATGAGGAATTTGATGTTTTCATTTTGTACAACAAGGTAAGAAACCATGTAACCAA AAAACCAGGAAATACTGATAAGATAAAAATAAACTTCGACAACGCTACGTTATTAGATGGTTGGGATGTA GATAAGGAAGCAGCAAACTTCGGATTTCTACTTAAGAAGGCGGATAACTACTATCTAGGAATAGCTGATT CCAGCTTTAATCAAGACTTAAAGTATTTTAACGAAGGAGAGAGATTGGATGAAATTGAAAAAAACAGAAA GAATCTTGAAAAAGAAGAGAGTAAAAACATTTCGAAAATCGACCAGGAAAAAGTAAAAAAATATAAGGAA GTAATTGATGACTTAAAAGCAATTTCCAATCTTAATAAAGGACGTTATTCGAAAGCATTTTATAAACAAA CGACACTGATTATAGAATTGAAAATAAAAAATTTGCAAAACCTTTTATAATCACAAAAGAAGTCTTTTTA CTTAATAATACAGTTTATGATACAGCCACCAAAAAGTTTACTCTTAAAATAGGTGAGGATGAAGATACAA AAGGATTAAAAAAATTTCAAATCGGATATTATCGTGCGACAGATGACAAAAAAGGATATGAGTCCGCCTT ACGAAACTGGATAACTTTTTGTATTGAGTTTACGAAAAGTTATAAAAGTTGCCTTAACTATAATTACTCA TCCTTAAAATCTGTGTCCGAATACAAGTCACTAGATGAATTCTATAAAGATTTAAATGGAATAGGGTATA CGATTGATTTCGTAGACATTTCCGAAGAATACATAAATAAAAAAATAAATGAAGGAAAACTATATCTTTT CCAAATCTACAATAAAGATTTTTCAGAAAAATCAAAAGGAAAAGAAAACCTCCATACGACCTATTGGAAG TTGTTATTTGATTCGAAAAACCTTGAAGATGTAGTTATAAAACTAAACGGACAAGCGGAAGTGTTCTTTC GACCAGCTTCTATTCATGAAAAAGAAAAAATCACTCATTTCAAAAATCAGGAAATACAAAATAAGAATCC TAATGCTGTGAAAAAAACTAGTAAATTTGAATATGATATAATCAAAGACAATCGATTTACGAAAAACAAA TTCTTGTTTCATTGCCCTATCACATTGAATTTTAAGGCAGATGGAAATCCGTATGTAAATAACGAAGTTC AAGAAAATATAGCAAAAAATCCAAATGTGAACATCATTGGAATCGACCGTGGAGAAAAACATCTCCTTTA TTTTACAGTTATCAATCAGCAAGGGCAAATACTCGATGCTGGTAGTCTGAATTCCATTAAATCCGAATAT AAAGATAAAAACCAACAATCAGTCTCCTTTGAGACACCGTACCACAAAATCTTAGATAAAAAAGAGTCAG AAAGAAAAGAGGCAAGGGAATCTTGGCAAGAAATTGAAAATATCAAAGAACTAAAAGCAGGATATTTGTC ACACGTAGTACACCAATTATCAAATTTGATCGTTAAATACAATGCGATAGTGGTACTCGAAGATTTAAAT AAGGGATTTAAAAGAGGTAGATTTAAAGTTGAAAAACAAGTTTATCAAAAATTTGAAAAGTCGTTGATAG AAAAGTTGAATTATCTGGTTTTCAAAGACCGCAAAGAATCAAATGAACCTGGGCATCATTTGAATGCTTA TCAATTAACAAATAAATTCTTAAGCTTTGAAAGATTAGGTAAACAGTCAGGAGTCCTTTTTTATGCAACT GCGAGTTATACATCAAAAGTGGATCCTGTCACTGGCTTTATGCAAAATATTTATGATCCATATCATAAAG AAAAAACAAGGGAATTCTATAAGAATTTTACCAAGATTGTTTATAATGGAAACTACTTTGAATTTAATTA TGATTTGAACTCAGTAAAGCCTGATTCTGAAGAAAAAAGATATCGGACAAATTGGACAGTATGCAGTTGT GTGATTCGATCTGAGTATGATTCAAATTCCAAAACTCAAAAAACTTATAATGTAAATGATCAACTTGTAA AACTATTCGAGGATGCCAAAATAAAAATTGAGAACGGAAACGATCTAAAATCCACCATTCTAGAACAAGA TGATAAATTTATCCGAGACCTCCATTTTTACTTTATTGCAATACAGAAGATGAGAGTTGTTGATTCAAAA ATAGAAAAAGGAGAAGATTCGAATGATTATATTCAATCGCCCGTTTATCCTTTCTATTGTTCCAAAGAAA TTCAACCGAACAAAAAAGGATTCTATGAACTTCCAAGCAATGGAGATTCCAATGGAGCCTACAATATCGC GCGGAAAGGAATTGTAATTTTGGATAAGATTCGTTTGAGAGTTCAAATCGAAAAATTGTTTGAAGATGGA ACGAAAATTGATTGGCAAAAACTTCCAAACCTTATTTCAAAAGTAAAAGATAAAAAACTTCTCATGACTG TCTTTGAAGAATGGGCAGAACTGACACATCAAGGGGAAGTTCAGCAAGGTGACTTGCTTGGGAAAAAGAT GAGTAAGAAAGGAGAACAATTTGCTGAATTTATAAAAGGACTCAATGTTACAAAGGAAGATTGGGAAATT TATACTCAAAATGAAAAAGTAGTACAAAAGCAGATAAAGACTTGGAAATTGTTTAGCAATTCTACCTAA SEQ ID NO: 136 ART34_Optimized1 ATGAAGGCGACTAGTATTTGGGATAACTTTACTCGTAAGTATAGTGTATCTAAAACGCTTCGCTTTGAGCTTCGCC CTGTTGGTAAGACTGAGGAAAATATTGTAAAAAAGGAGATTATTGACGCCGAGTGGATTAGCGGGAAGAACATTCC AAAGGGTACTGATGCTGACCGCGCGCGCGACTATAAAATTGTCAAAAAATTGTTAAACCAGCTGCACATTCTTTTC ATCAATCAGGCCTTGTCTTCGGAGAATGTAAAGGAATTCGAGAAGGAGGACAAAAAGTCTAAAACCTTTGTGGCTT GGTCGGATCTGTTGGCGACGCACTTCGATAACTGGATCCAATACACACGTGATAAGTCTAATAGCACTGTCTTAAA ATCTTTAGAGAAGTCAAAAAAAGATTTATACTCGAAGTTAGGAAAATTACTGAACTCAAAGGCTAACGCTTGGAAA GCAGAGTTTATTAGCTACCATAAGATTAAAAGCCCCGACAATATCAAGATTCGCTTATCTGCGAGCAACGTTCAAA TCCTGTTTGGGAATACGAGTGATCCAATCCAACTGTTAAAATACCAAATCGAACTGGATAATATTAAGTTCCTGAA AGATGATGGCTCGGAATATACAACGAAAGAACTGGCTGATCTGTTGAGTACCTTTGAAAAATTCGGGACGTACTTT TCCGGCTTTAACCAGAATCGTGCAAACGTGTATGATATTGATGGTGAAATTTCAACGAGTATCGCTTATCGTCTTT TTAACCAGAATATCGAATTTTTTTTCCAAAACATTAAACGTTGGGAGCAGTTTACAAGTTCAATCGGGCACAAAGA GGCCAAGGAAAACCTGAAGCTTGTGCAGTGGGATATTCAATCCAAGCTGAAAGAGCTTGACATGGAGATCGTGCAA CCTCGCTTTAACCTTAAGTTTGAAAAGCTTCTGACACCACAAAGTTTCATTTACTTGCTGAACCAAGAGGGAATTG ATGCGTTTAACACCGTCTTAGGCGGAATCCCAGCTGAGGTGAAAGCTGAGAAAAAACAAGGCGTAAACGAACTGAT CAACCTTACACGCCAAAAATTAAACGAGGACAAACGCAAATTTCCCTCTCTGCAAATCATGTATAAACAGATTATG AGTGAGCGTAAAACGAATTTCATTGACCAGTATGAAGATGACGTGGAAATGTTAAAGGAGATCCAAGAGTTCTCAA ATGATTGGAACGAAAAGAAGAAGCGTCATTCTGCATCTAGTAAGGAGATCAAGGAGAGTGCAATTGCGTACATTCA GCGCGAATTCCATGAGACTTTTGACAGTTTGGAAGAGCGCGCCACAGTCAAAGAGGACTTCTATTTGAGCGAAAAG TCTATTCAGAATTTGTCGATCGACATCTTCGGCGGCTACAACACAATTCACAATTTATGGTACACTGAAGTAGAGG GGATGCTGAAGTCAGGTGAACGTCCTTTAACTCGTGTAGAAAAAGAAAAACTGAAGAAGCAGGAATATATCTCATT TGCTCAAATCGAGCGCCTTATTTCCAAGCACAGTCAGCAGTATCTTGACTCAACACCTAAAGAGGCTAACGACCGT TCATTGTTTAAGGAAAAATGGAAAAAAACTTTCAAGAATGGCTTCAAGGTATCAGAATACACAAATTTGAAGCTTA ACGAACTGATCTCGGAGGGAGAAACATTCCAGAAAATTGATCAAGAAACAGGCAAGGAAACAACAATCAAGATCCC CGGTTTGTTCGAGTCTTATGAGAATGCCATCTTGGTTGAATCTATCAAGAATCAAAGTTTAGGAACCAATAAGAAA GAGAGCGTGCCGTCGATCAAGGAATATTTAGATAGCTGCCTTCGCTTATCTAAGTTCATCGAGAGCTTCTTGGTGA ACAGCAAGGATTTAAAAGAGGATCAAAGCCTGGATGGATGCAGCGACTTTCAAAACACTTTGACTCAATGGCTTAA TGAAGAGTTTGACGTTTTTATCCTGTATAATAAGGTCCGTAACCATGTAACCAAGAAACCGGGCAATACAGACAAA ATTAAAATTAACTTCGATAACGCCACGCTGCTTGACGGTTGGGACGTAGATAAAGAAGCCGCAAACTTTGGTTTCT TACTGAAAAAGGCAGATAACTACTATTTAGGGATCGCTGATTCATCGTTTAACCAGGATCTTAAGTATTTTAACGA GGGAGAACGCTTGGATGAAATCGAAAAAAACCGCAAAAATTTGGAGAAAGAAGAATCCAAAAATATCAGCAAAATT GACCAGGAGAAAGTTAAAAAATACAAGGAGGTCATTGACGATTTGAAGGCCATTTCGAACCTTAATAAAGGACGTT ACTCTAAAGCTTTTTATAAACAGTCAAAATTTACAACGCTTATTCCCAAGTGTACAACCCAATTGAACGAAGTCAT TGAACACTTCAAAAAATTCGATACGGACTATCGTATTGAGAATAAAAAGTTTGCTAAACCCTTTATTATTACGAAA GAGGTTTTTTTGTTAAATAATACGGTGTACGATACTGCTACGAAAAAGTTCACGCTTAAAATCGGGGAAGACGAGG ATACGAAAGGACTGAAAAAGTTTCAGATTGGCTACTACCGCGCAACAGACGACAAGAAGGGTTATGAAAGCGCCCT GCGTAACTGGATTACCTTTTGTATCGAGTTTACAAAGAGCTACAAGTCGTGTTTAAACTACAACTATTCGTCGCTT AAATCAGTAAGTGAATACAAGTCGCTTGATGAATTTTACAAGGATTTAAACGGTATTGGGTATACTATTGACTTTG TCGATATCTCTGAGGAGTATATCAATAAGAAGATCAACGAGGGTAAGTTATATTTATTCCAAATCTATAACAAAGA TTTCAGCGAAAAGTCAAAAGGGAAAGAGAATCTGCACACAACGTATTGGAAACTGTTATTCGACTCAAAGAACTTG GAGGATGTTGTTATCAAGTTGAACGGGCAAGCTGAAGTCTTTTTCCGTCCCGCCAGTATCCACGAAAAGGAAAAGA TCACGCACTTCAAAAACCAGGAAATTCAAAATAAGAACCCCAACGCCGTGAAAAAAACGTCCAAATTCGAGTACGA TATTATTAAAGACAACCGCTTCACAAAAAACAAGTTCTTGTTCCATTGCCCAATCACTCTGAATTTTAAAGCCGAC GGGAACCCGTACGTGAATAACGAGGTACAGGAAAACATTGCCAAGAATCCTAATGTAAACATTATCGGGATCGACC GTGGGGAGAAGCATTTGTTGTACTTTACGGTAATCAACCAACAAGGACAGATCCTGGATGCGGGCAGCCTGAACTC AATCAAGTCCGAATATAAAGATAAGAACCAACAGTCCGTCTCTTTCGAAACGCCGTACCACAAAATCCTGGACAAA AAGGAGAGTGAGCGTAAGGAGGCCCGCGAGAGCTGGCAAGAGATTGAAAACATCAAGGAACTGAAAGCCGGATACC TTAGCCATGTCGTTCATCAACTGAGCAACTTGATCGTAAAGTACAATGCAATCGTAGTTCTGGAGGATTTAAATAA GGGCTTTAAGCGCGGGCGCTTCAAAGTAGAGAAGCAAGTCTACCAAAAGTTCGAGAAGTCTTTGATTGAGAAGTTA AATTATTTAGTCTTTAAGGACCGTAAGGAATCAAATGAGCCTGGTCACCACTTGAACGCTTACCAACTGACAAACA AATTCTTGTCTTTTGAGCGCCTTGGGAAACAAAGTGGTGTACTTTTCTACGCTACAGCGTCATACACCTCAAAGGT CGACCCCGTAACGGGATTTATGCAAAATATTTATGATCCATATCATAAGGAAAAAACTCGCGAGTTCTATAAAAAC TTCACGAAGATCGTCTATAACGGGAACTATTTTGAGTTTAATTATGACTTGAACTCAGTCAAGCCTGACAGCGAGG AGAAGCGTTACCGCACAAATTGGACGGTATGCTCCTGTGTGATTCGTTCGGAATACGACTCTAATTCAAAAACGCA AAAGACATATAATGTTAATGACCAGCTGGTTAAATTATTTGAAGACGCCAAAATCAAAATTGAGAACGGTAATGAT TTAAAGTCGACAATCTTAGAGCAGGATGATAAGTTTATCCGCGATTTACACTTCTACTTCATCGCAATCCAGAAGA TGCGTGTCGTTGATAGTAAAATCGAAAAAGGCGAAGATTCAAATGATTATATTCAGAGCCCGGTTTACCCCTTCTA CTGCTCCAAAGAAATCCAGCCGAACAAAAAGGGCTTCTACGAGTTACCATCAAACGGTGATTCTAACGGAGCGTAC AACATTGCTCGTAAAGGCATCGTAATTTTAGACAAGATCCGCCTGCGCGTACAGATTGAAAAGTTATTCGAGGACG GGACGAAAATTGATTGGCAGAAGCTTCCTAATTTAATCTCTAAGGTTAAGGACAAAAAGCTTTTGATGACGGTGTT CGAAGAGTGGGCGGAGCTTACACATCAAGGAGAAGTTCAGCAAGGTGACCTTCTTGGTAAGAAAATGTCGAAAAAG GGAGAACAGTTCGCGGAGTTTATTAAAGGATTGAATGTAACGAAGGAAGACTGGGAAATCTACACGCAAAACGAGA AGGTAGTACAGAAGCAAATTAAGACTTGGAAGCTTTTTTCAAACTCGACCTAA SEQ ID NO: 137 ART34_Optimized2 ATGAAGGCGACGTCGATTTGGGACAACTTCACACGTAAATACAGCGTCTCTAAGACACTTCGTTTCGAGCTGCGCC CAGTTGGAAAAACTGAAGAGAATATCGTTAAAAAAGAAATTATCGACGCGGAGTGGATCTCAGGCAAAAATATTCC AAAAGGTACTGATGCAGATCGCGCCCGTGACTATAAAATCGTTAAAAAGTTATTAAATCAACTGCATATCTTATTC ATCAACCAGGCTTTATCGAGTGAAAACGTTAAGGAATTTGAGAAAGAGGATAAGAAAAGTAAGACGTTTGTCGCAT GGTCTGATTTGTTAGCTACGCATTTCGATAATTGGATCCAGTATACGCGCGATAAGTCAAACTCGACTGTATTGAA ATCATTGGAGAAATCGAAAAAGGATTTGTACAGTAAGTTGGGTAAACTGTTGAATAGTAAAGCAAACGCGTGGAAA GCTGAATTTATTAGTTATCATAAAATTAAGTCTCCAGACAATATTAAAATTCGTCTTTCTGCATCCAATGTGCAGA TCCTGTTTGGTAACACCAGTGATCCAATTCAGTTGCTTAAGTATCAGATCGAACTTGACAACATTAAGTTTCTGAA AGATGATGGAAGTGAATACACCACAAAAGAGCTTGCAGACTTACTGTCGACATTCGAGAAGTTCGGGACGTATTTT TCAGGATTTAACCAAAACCGTGCCAACGTCTATGACATTGATGGGGAAATCTCCACTAGTATCGCCTATCGCCTGT TTAACCAGAATATTGAGTTCTTTTTTCAAAATATCAAGCGTTGGGAGCAGTTCACATCCAGTATCGGTCATAAAGA GGCGAAGGAGAACCTGAAACTGGTACAGTGGGATATCCAAAGCAAATTAAAGGAGCTTGACATGGAAATCGTCCAG CCCCGTTTCAATTTAAAGTTTGAGAAGTTGCTGACTCCGCAAAGTTTCATCTATTTATTGAATCAAGAGGGAATTG ATGCTTTTAACACAGTCCTTGGCGGGATTCCAGCAGAAGTGAAAGCGGAAAAAAAACAGGGGGTCAATGAATTAAT TAACTTGACCCGTCAGAAGCTTAATGAAGATAAACGCAAGTTCCCTTCATTACAAATTATGTACAAACAGATTATG TCAGAACGCAAAACGAATTTCATCGACCAATATGAAGATGACGTCGAGATGTTGAAAGAGATCCAGGAGTTCAGTA ACGATTGGAACGAAAAAAAAAAGCGTCACAGTGCATCATCCAAAGAGATTAAGGAATCCGCGATTGCTTATATTCA ACGCGAGTTCCACGAAACATTCGACTCCTTAGAAGAGCGCGCAACAGTCAAAGAGGATTTTTATCTTAGCGAAAAA TCAATTCAAAACTTAAGTATCGACATCTTCGGAGGGTATAATACTATTCACAATTTGTGGTACACTGAGGTGGAGG GGATGTTAAAATCGGGAGAGCGCCCTTTGACTCGTGTGGAGAAGGAGAAGTTAAAGAAACAAGAATATATTAGCTT CGCTCAGATTGAGCGTTTAATCAGTAAGCACAGTCAACAATATCTGGACAGTACCCCGAAAGAGGCCAATGATCGT TCGCTTTTTAAAGAGAAGTGGAAAAAGACATTTAAAAATGGGTTTAAGGTCAGCGAATATACCAATCTTAAGCTGA ACGAGTTAATCTCCGAAGGGGAGACATTCCAGAAGATCGACCAAGAGACGGGCAAAGAAACCACAATTAAGATCCC GGGCTTATTTGAGTCATATGAAAACGCGATTTTAGTCGAGTCAATTAAGAATCAGTCTCTGGGCACGAATAAAAAG GAGAGTGTACCCAGTATTAAGGAATACTTAGACTCGTGCCTGCGCTTAAGTAAGTTTATTGAGTCGTTCTTGGTCA ACTCGAAGGATCTGAAGGAAGATCAAAGTTTGGATGGCTGTTCTGACTTTCAGAACACATTAACACAATGGCTTAA TGAGGAATTTGATGTCTTCATTCTGTATAACAAGGTACGTAACCATGTGACCAAGAAGCCGGGTAATACAGATAAA ATTAAGATCAACTTTGATAACGCCACGCTGCTGGACGGGTGGGACGTGGACAAAGAGGCGGCCAACTTCGGATTTT TGTTAAAGAAGGCGGACAATTACTACTTGGGGATTGCTGATTCCTCGTTTAACCAGGATTTAAAATACTTTAACGA AGGAGAACGCCTGGACGAAATTGAAAAGAACCGTAAGAACCTGGAAAAAGAAGAATCTAAGAATATTAGTAAGATC GACCAGGAGAAGGTGAAGAAGTATAAGGAAGTTATTGATGACTTGAAAGCTATTTCCAATTTGAACAAAGGACGTT ACTCGAAAGCCTTTTACAAGCAGAGCAAGTTTACTACGTTAATTCCGAAATGCACAACCCAGCTTAATGAAGTCAT TGAGCACTTTAAAAAGTTCGATACAGATTATCGCATTGAAAATAAGAAGTTTGCTAAGCCATTCATTATTACTAAA GAGGTTTTTCTTCTGAATAACACTGTGTATGACACCGCAACAAAAAAATTTACCTTAAAGATTGGGGAAGATGAAG ACACAAAGGGGTTGAAGAAATTCCAGATTGGATACTATCGCGCAACCGATGATAAGAAGGGGTACGAATCGGCGCT GCGTAACTGGATCACATTCTGCATCGAATTCACTAAGAGTTACAAATCGTGCCTTAATTACAACTACAGTAGTCTT AAGAGTGTTTCAGAGTACAAATCTTTAGACGAATTCTACAAAGACTTGAATGGGATCGGTTACACTATTGACTTCG TTGATATCTCAGAAGAGTACATTAATAAAAAAATCAACGAGGGCAAGCTGTATCTTTTTCAGATCTACAATAAAGA TTTTTCCGAAAAAAGCAAAGGGAAGGAAAATTTACATACGACTTACTGGAAGCTGTTATTTGACTCGAAGAATTTG GAGGATGTTGTTATCAAACTTAACGGACAAGCAGAAGTCTTCTTCCGTCCGGCGTCAATTCACGAGAAAGAAAAGA TTACGCACTTTAAGAATCAGGAAATCCAAAACAAGAATCCAAACGCCGTGAAGAAGACCAGTAAGTTTGAATATGA TATTATTAAGGACAATCGCTTTACAAAGAATAAATTTCTTTTTCACTGTCCGATTACTCTGAACTTTAAAGCAGAC GGCAACCCTTATGTGAACAACGAGGTTCAAGAGAATATCGCTAAAAATCCCAATGTGAACATCATCGGGATCGACC GTGGCGAGAAACACCTTCTTTACTTTACTGTAATCAATCAACAAGGCCAAATTTTAGACGCTGGCTCATTAAATAG TATTAAAAGTGAGTATAAGGACAAAAACCAGCAGTCGGTTTCCTTTGAGACTCCGTATCACAAAATTTTAGACAAA AAGGAATCCGAGCGTAAGGAAGCTCGCGAATCTTGGCAGGAGATTGAAAATATTAAGGAGTTAAAGGCAGGATATT TGTCGCATGTCGTCCACCAATTGTCAAATCTGATCGTTAAGTACAACGCGATTGTCGTTTTAGAAGACCTGAATAA GGGCTTCAAACGTGGACGTTTTAAGGTGGAAAAACAGGTATATCAAAAGTTCGAGAAATCATTAATCGAAAAGCTG AATTATTTAGTCTTTAAGGACCGCAAGGAGAGCAACGAGCCGGGTCATCATTTAAACGCTTATCAGCTGACGAATA AGTTCCTGTCGTTTGAGCGTTTAGGGAAGCAAAGCGGCGTATTGTTTTATGCTACTGCTTCATATACATCTAAAGT AGATCCCGTAACCGGATTCATGCAGAATATTTACGACCCATATCACAAGGAGAAAACTCGCGAATTTTACAAGAAT TTTACTAAAATTGTGTACAACGGCAACTATTTCGAGTTCAATTACGATCTTAACAGTGTTAAACCGGATTCAGAAG AGAAACGTTATCGCACTAATTGGACGGTTTGCAGTTGCGTTATTCGTAGTGAATACGACTCAAATAGTAAGACACA GAAAACGTATAACGTGAACGATCAATTGGTCAAACTGTTTGAGGACGCGAAAATTAAGATCGAGAATGGTAATGAC CTTAAGTCTACAATCCTTGAACAGGATGACAAGTTTATCCGCGATTTACATTTCTATTTTATCGCCATCCAAAAAA TGCGCGTGGTTGACAGCAAGATTGAGAAAGGTGAAGACAGCAATGATTACATCCAGTCGCCGGTCTATCCATTTTA TTGCTCCAAGGAAATCCAACCCAATAAAAAGGGCTTCTATGAACTTCCCTCGAATGGAGACTCCAATGGAGCTTAC AACATCGCACGCAAGGGGATTGTGATTCTTGACAAGATTCGTTTGCGCGTACAAATTGAAAAATTGTTCGAAGATG GTACGAAAATTGACTGGCAGAAGCTTCCTAACTTAATTTCGAAGGTCAAGGATAAGAAGTTACTTATGACCGTCTT CGAGGAGTGGGCCGAGCTTACCCACCAGGGAGAAGTACAACAGGGAGACTTGTTGGGAAAAAAAATGTCGAAAAAA GGCGAACAGTTCGCAGAATTTATCAAGGGGTTGAATGTTACTAAAGAAGACTGGGAAATTTACACTCAGAACGAGA AAGTCGTTCAGAAACAAATTAAGACATGGAAGCTTTTCTCTAACTCGACCTAA SEQ ID NO: 138 ART34_Optimized3 ATGAAGGCAACGTCCATCTGGGACAATTTCACCCGTAAATATTCGGTGTCTAAGACTCTGCGTTTCGAGCTGCGCC CGGTTGGCAAGACGGAGGAAAACATTGTAAAGAAGGAAATTATTGACGCCGAATGGATCTCTGGGAAAAATATCCC GAAGGGTACCGACGCCGACCGCGCTCGTGATTATAAAATTGTGAAGAAGTTGTTGAATCAATTGCATATTTTGTTC ATCAATCAGGCACTGTCGAGCGAGAACGTAAAGGAATTCGAAAAGGAAGATAAAAAATCAAAGACTTTTGTTGCGT GGTCAGATCTGTTGGCGACCCATTTCGACAATTGGATTCAATATACCCGTGATAAATCTAACTCCACCGTATTAAA ATCCCTGGAAAAGTCTAAGAAGGATCTTTACTCCAAGTTGGGAAAGCTTTTGAATTCTAAGGCTAATGCGTGGAAA GCAGAATTCATTTCGTATCATAAGATTAAAAGCCCTGATAACATTAAAATTCGTCTGTCGGCGTCAAATGTACAGA TTTTGTTTGGAAATACCAGCGACCCAATTCAGTTATTAAAGTACCAGATCGAGTTAGACAATATCAAATTTTTGAA GGACGACGGCAGCGAATACACTACTAAAGAGTTAGCGGACCTGCTGTCAACTTTCGAAAAGTTCGGTACTTACTTT TCCGGTTTTAATCAAAACCGTGCTAACGTTTATGACATTGACGGAGAGATCAGTACCTCGATCGCTTATCGTCTGT TCAACCAGAATATCGAGTTTTTTTTCCAGAACATTAAGCGCTGGGAACAGTTCACATCCTCAATTGGCCACAAGGA AGCTAAGGAGAACCTTAAATTGGTCCAATGGGACATCCAGTCTAAGTTGAAAGAATTAGATATGGAAATCGTACAG CCTCGCTTCAATTTGAAATTCGAGAAGCTTTTGACTCCACAGTCGTTCATTTACTTATTGAATCAGGAAGGCATCG ACGCATTTAATACGGTCTTGGGGGGCATCCCCGCTGAGGTGAAAGCGGAGAAGAAGCAGGGGGTAAACGAATTGAT TAATTTAACCCGTCAGAAATTGAACGAGGACAAACGCAAATTTCCCTCCTTACAAATTATGTACAAGCAAATTATG TCTGAACGTAAGACAAATTTTATCGATCAGTATGAGGATGATGTCGAAATGCTGAAGGAGATCCAAGAGTTTAGCA ACGATTGGAATGAGAAAAAAAAGCGCCATTCCGCTTCGAGCAAAGAAATTAAGGAAAGTGCCATTGCCTACATCCA ACGCGAATTCCATGAAACTTTTGACTCATTAGAAGAACGCGCTACAGTAAAAGAAGACTTTTATCTGAGTGAAAAA AGTATCCAAAATTTATCTATTGACATCTTCGGCGGCTATAACACGATCCACAATTTGTGGTATACTGAAGTCGAAG GCATGCTTAAGAGTGGTGAGCGCCCGTTGACACGTGTAGAAAAGGAAAAATTGAAAAAGCAAGAATACATCAGTTT CGCCCAAATTGAGCGTTTAATCTCGAAACATTCACAGCAGTATTTAGATTCCACTCCTAAGGAGGCAAATGATCGT TCCCTTTTCAAGGAGAAATGGAAAAAGACATTCAAGAACGGATTCAAGGTCTCTGAATACACCAACCTTAAATTGA ACGAACTGATCTCGGAGGGCGAAACCTTTCAAAAGATCGATCAGGAAACCGGTAAGGAGACCACAATTAAGATTCC CGGGTTGTTCGAGTCATACGAGAACGCTATTCTGGTTGAGTCTATCAAGAATCAAAGCTTGGGCACGAACAAAAAG GAATCGGTACCATCGATTAAAGAATATCTGGACAGTTGTTTGCGTTTATCGAAGTTCATTGAGTCTTTCCTTGTGA ATTCAAAGGACTTGAAAGAAGATCAATCGTTGGACGGATGTTCTGACTTTCAGAATACGTTAACCCAGTGGTTAAA TGAGGAATTTGATGTTTTTATCTTATATAATAAGGTCCGTAATCATGTTACCAAAAAGCCTGGAAATACCGATAAG ATCAAAATCAATTTCGATAACGCCACATTGCTTGACGGTTGGGATGTAGATAAAGAGGCGGCAAACTTCGGGTTCC TGCTTAAAAAGGCGGACAACTATTACCTTGGCATTGCCGACAGTAGCTTTAATCAGGATTTGAAGTATTTCAACGA AGGTGAACGCCTGGATGAAATCGAGAAGAACCGTAAAAATTTGGAGAAGGAGGAAAGCAAGAATATCTCAAAAATT GACCAAGAAAAAGTTAAGAAGTATAAGGAAGTAATTGATGACCTTAAGGCAATCAGCAACCTTAACAAAGGGCGCT ACTCGAAGGCTTTTTACAAGCAGTCCAAGTTTACCACTCTGATCCCGAAATGTACCACTCAATTAAACGAAGTCAT TGAGCATTTCAAAAAATTTGACACCGACTATCGCATTGAGAATAAAAAGTTCGCGAAACCATTCATCATTACCAAG GAGGTTTTTTTATTAAATAACACCGTGTACGATACCGCAACGAAAAAATTTACGTTGAAAATCGGGGAAGATGAGG ACACGAAGGGCTTAAAAAAATTCCAGATTGGGTATTACCGCGCCACTGATGACAAAAAGGGGTACGAGTCGGCCTT GCGCAACTGGATTACATTTTGTATCGAGTTCACAAAAAGTTATAAATCATGCCTTAACTACAATTATTCATCGTTA AAAAGCGTCTCCGAGTACAAATCTCTTGACGAGTTCTATAAGGACCTTAATGGGATCGGGTATACAATCGACTTTG TAGACATTTCAGAGGAATACATCAATAAGAAAATCAATGAGGGCAAGTTATACCTTTTTCAAATCTATAACAAAGA CTTTAGTGAGAAATCAAAAGGCAAAGAAAATCTGCATACCACGTATTGGAAACTTCTTTTCGACAGCAAGAACTTG GAAGACGTTGTAATCAAACTTAACGGGCAGGCCGAAGTATTTTTCCGTCCAGCATCGATTCATGAGAAAGAAAAAA TCACTCATTTTAAAAACCAAGAAATTCAGAACAAGAATCCGAATGCCGTGAAAAAAACTTCCAAGTTCGAATACGA TATCATCAAGGACAACCGTTTTACTAAAAATAAATTCTTGTTCCATTGTCCTATTACGCTGAACTTTAAGGCTGAC GGTAATCCTTATGTAAATAACGAAGTACAAGAAAACATCGCTAAGAATCCCAATGTAAACATTATCGGTATTGATC GCGGAGAGAAGCATCTGCTTTACTTCACAGTCATCAACCAGCAAGGCCAGATCTTAGACGCAGGTTCGTTGAACAG CATCAAGTCCGAGTACAAGGATAAAAATCAGCAAAGTGTCTCGTTTGAAACGCCCTATCACAAGATTCTTGACAAG AAGGAATCAGAACGTAAGGAAGCCCGCGAGTCGTGGCAAGAAATTGAGAATATCAAGGAGCTTAAAGCGGGATATC TGTCGCACGTCGTTCATCAACTTTCTAATTTAATCGTAAAGTACAACGCGATTGTAGTGTTAGAAGACCTGAACAA GGGATTTAAACGCGGACGCTTCAAAGTAGAAAAGCAAGTCTATCAAAAATTTGAAAAGTCCCTGATTGAAAAATTG AATTATTTAGTATTCAAGGACCGCAAGGAGTCTAATGAGCCTGGTCACCACCTTAACGCTTATCAATTGACTAACA AATTCTTATCATTCGAACGTTTAGGTAAGCAATCAGGCGTGTTGTTTTATGCTACCGCTAGTTACACATCAAAGGT TGATCCGGTGACCGGCTTCATGCAAAATATCTATGACCCGTATCACAAAGAAAAAACTCGCGAGTTCTACAAGAAC TTCACGAAGATCGTTTACAATGGAAACTATTTCGAATTTAATTATGACTTAAACTCTGTAAAACCCGACTCCGAAG AAAAGCGTTATCGTACGAATTGGACCGTTTGCTCCTGCGTTATTCGCTCAGAATATGATAGCAATAGTAAAACACA GAAGACATATAATGTAAATGACCAGCTTGTGAAACTGTTTGAAGATGCTAAAATCAAAATCGAAAATGGTAACGAC TTGAAGTCTACGATTCTTGAGCAAGACGACAAGTTTATTCGCGATCTGCACTTTTATTTTATTGCTATCCAGAAAA TGCGCGTGGTGGACAGTAAAATCGAGAAAGGGGAAGACTCAAACGACTATATTCAGTCACCAGTCTATCCCTTCTA CTGCAGCAAAGAGATCCAACCAAACAAGAAGGGTTTCTACGAATTACCAAGTAACGGTGACTCTAACGGCGCATAC AACATCGCACGCAAAGGGATTGTTATTCTGGATAAAATTCGCCTGCGTGTACAAATTGAAAAGTTATTTGAAGATG GGACCAAAATCGACTGGCAAAAGTTGCCTAACCTTATCAGCAAAGTGAAAGACAAGAAACTGTTAATGACCGTTTT CGAAGAATGGGCGGAGTTAACTCATCAGGGAGAGGTACAACAAGGAGACTTGCTGGGCAAGAAAATGAGCAAAAAA GGGGAACAGTTTGCAGAGTTTATTAAGGGCCTTAACGTTACGAAGGAAGATTGGGAAATTTACACCCAGAATGAAA AGGTTGTGCAAAAGCAGATCAAGACTTGGAAATTGTTTTCTAACTCCACTTAA SEQ ID NO: 139 ART35_WT ATTAAGGCTATTAATGAATATTATAAGCAGTTGGGAGCTTATTGTCGTGAAGAAGGAAAAGAAAAAGATG ATTTCTTTAAGCGTATTGATGGTGCTTATTGTGCTATATCACATCTTTTCTTTGGGGAACATGGCGAAAT AGCCCAGTCAGACTCAGATGTTGAGCTTATCCAAAAGTTGCTCGAAGCCTATAAGGGGTTACAACGCTTT ATCAAGCCTTTATTAGGTCATGGTGATGAAGCTGATAAAGACAATGAGTTTGATGCAAAACTTCGTAAAG TATGGGATGAACTCGACATCATTACACCGCTTTATGATAAAGTACGCAATTGGCTCTCTCGTAAGATATA TAACCCTGAGAAAATAAAGCTATGTTTTGAGAATAATGGCAAGTTGTTATCTGGATGGGTTGACAGCAGA ACTAAATCCGATAATGGTACTCAATATGGAGGGTATATCTTTAGAAAGAAGAATGAAATTGGTGAATACG ATTTCTATTTGGGTATTTCTGCTGATACAAAACTGTTTCGTCGTGATGCTGCCATCAGTTATGATGATGG CATGTACGAGAGATTAGATTATTATCAGCTGAAATCAAAAACTTTACTCGGAAATAGTTATGTTGGAGAT TATGGACTGGATTCGATGAATTTGCTTTCTGCATTTAAAAATGCTGCAGTTAAGTTCCAATTTGAAAAGG AAGTGGTTCCTAAAGATAAAGAGAATGTGCCAAAATATCTCAAGCGCCTAAAACTGGATTATGCAGGATT TTATCAAATTTTGATGAATGATGATAAGGTTGTTGATGCTTACAAGATTATGAAGCAGCATATTCTTGCG ACATTGACTTCTTCGATTCGTGTACCTGCGGCAATAGAGTTAGCTACTCAAAAAGAATTGGGTATTGACG AATTGATTGATGAAATAATGAATTTACCGTCCAAGTCATTCGGCTATTTCCCTATTGTCACTGCAGCAAT AGAAGAAGCTAACAAGAGAGAGAATAAACCTTTGTTTCTTTTTAAGATGAGTAACAAGGATCTTTCTTAT GCAGCAACAGCTTCTAAAGGGTTAAGAAAAGGTCGAGGAACAGAGAATCTTCATTCAATGTATCTCAAAG CTCTTCTGGGGATGACACAGAGTGTTTTTGATATCGGAAGTGGAATGGTATTCTTTCGTCACCAAACTAA AGGTTTGGCAGAAACAACGGCAAGACATAAAGCTAATGAGTTTGTTGCTAATAAGAACAAGCTTAATGAC AAGAAAAAGAGTATTTTTGGCTATGAGATAGTGAAGAATAAACGTTTTACGGTAGATAAGTACCTTTTTA AGTTGTCTATGAATTTGAATTATTCGCAACCAAATAACAATAAAATTGATGTAAATTCTAAAGTTCGTGA AATAATTAGTAATGGAGGTATAAAGAATATTATTGGCATAGATCGTGGTGAACGTAATTTACTTTATCTG TCTTTAATAGATCTGAAGGGAAATATTGTCATGCAGAAGTCTCTCAATATTCTCAAGGATGATCATAATG CAAAGGAAACTGATTATAAAGGTTTGCTGACAGAACGAGAAGGAGAAAATAAAGAAGCTCGCCGCAATTG GAAGAAGATAGCGAATATCAAAGATTTAAAACGAGGTTATTTAAGTCAGGTAGTACATATCATTAGTAAA ATGATGGTAGAATACAATGCAATTGTTGTACTTGAAGATTTAAATCCAGGTTTTATCAGAGGCAGACAAA AAATCGAGCGTAACGTATATGAACAATTCGAAAGAATGCTAATTGACAAGTTGAATTTTTATGTTGACAA GCATAAAGGTGCCAATGAAACGGGAGGTTTGTTGCATGCACTTCAGCTTACTTCTGAATTTAAAAATTTC AAGAAAAGTGAGCATCAGAATGGGTGTCTTTTCTATATTCCTGCATGGAATACTAGCAAAATAGATCCTG CAACAGGTTTTGTCAATCTCTTTAATACGAAATATACGAATGCAGTTGAGGCGCAGGAGTTCTTTAGTAA ATTTGACGAGATTCGTTACAACGAGGAGAAAGATTGGTTTGAGTTTGAATTTGATTACGATAAATTCACT CAGAAGGCGCATGGTACACGTACTAAGTGGACGCTCTGTACTTATGGTATGCGTTTGCGTTCATTTAAAA ATTCTGCAAAACAATATAATTGGGATTCAGAGGTAGTAGCGCTTACCGAAGAATTCAAAAGAATACTTGG AGAAGCAGGTATTGATATTCATGAGAATCTAAAAGATGCAATCTGTAATTTGGAAGGTAAAAGCCAGAAG TATCTCGAACCTTTGATGCAGTTTATGAAATTGCTGCTACAATTGCGTAATAGTAAGGCTGGTACTGACG AAGATTATATCCTTTCTCCAGTTGCTGATGAGAATGGAATATTCTACGATAGCCGTTCTTGTGGTGATCA ACTTCCGGAGAATGCGGATGCTAATGGTGCTTACAACATCGCTCGCAAGGGACTGATGCTGATTGAGCAA ATCAAGAATGCAGAGGATTTGAATAACGTCAAGTTTGATATATCCAATAAGGCTTGGCTCAATTTTGCAC AACAAAAGCCATATAAGAATGGATGA SEQ ID NO: 140 ART35_Optimized1 ATTAAGGCGATTAACGAATATTACAAGCAGTTAGGAGCATATTGCCGTGAAGAAGGGAAAGAGAAGGACGATTTCT TTAAACGCATTGACGGCGCGTATTGTGCTATCTCCCATTTGTTTTTCGGTGAACATGGAGAGATCGCCCAGTCAGA CTCGGACGTGGAGCTGATCCAAAAGCTTCTGGAAGCTTACAAAGGTCTGCAACGCTTCATTAAACCATTGTTAGGT CACGGAGACGAAGCAGACAAAGACAATGAGTTTGATGCCAAGCTGCGTAAGGTCTGGGACGAATTAGACATTATCA CCCCGTTGTATGACAAGGTACGTAACTGGCTTTCGCGCAAAATTTACAACCCCGAAAAAATCAAATTGTGCTTTGA GAATAATGGGAAACTGCTTAGTGGTTGGGTAGACAGCCGCACGAAATCTGATAACGGCACACAGTACGGGGGATAC ATTTTCCGCAAGAAGAATGAAATTGGCGAGTATGACTTTTATCTGGGAATTTCAGCAGATACGAAGCTTTTCCGCC GTGATGCCGCGATTTCATACGATGATGGAATGTACGAGCGTTTAGATTACTACCAACTGAAGAGCAAGACATTACT GGGCAACTCGTACGTCGGGGATTACGGGCTGGACAGCATGAACTTGTTGTCCGCTTTTAAGAACGCAGCGGTGAAG TTCCAGTTCGAAAAGGAGGTTGTACCGAAAGATAAAGAGAATGTGCCGAAATATCTGAAGCGTCTTAAGTTAGATT ATGCGGGGTTTTACCAGATTCTGATGAATGACGACAAAGTAGTCGATGCGTACAAGATTATGAAACAACACATCCT GGCAACCTTGACATCCAGTATTCGTGTCCCTGCAGCAATTGAGTTAGCTACTCAGAAAGAATTGGGCATTGATGAA CTGATCGATGAGATCATGAATTTACCATCCAAGAGTTTTGGATATTTCCCAATTGTGACAGCAGCAATCGAGGAGG CTAACAAACGTGAGAACAAGCCTTTATTCCTTTTCAAGATGAGCAATAAAGACCTTTCATATGCCGCAACCGCCAG CAAGGGCTTACGTAAGGGGCGCGGTACAGAGAACCTTCATTCAATGTATTTGAAGGCCCTTTTGGGTATGACCCAG AGCGTATTTGATATTGGGTCGGGCATGGTCTTTTTTCGTCATCAGACGAAGGGCCTGGCCGAAACGACGGCGCGCC ACAAGGCTAATGAATTCGTGGCCAACAAGAATAAACTGAACGATAAAAAGAAGTCCATCTTTGGCTACGAAATTGT GAAAAATAAGCGCTTCACTGTGGATAAGTATTTATTTAAACTGTCAATGAACTTGAACTATTCACAACCGAACAAT AATAAGATTGATGTAAATTCGAAAGTGCGCGAAATTATTTCTAACGGGGGCATCAAGAATATTATTGGGATTGATC GTGGCGAACGCAATCTGTTGTACTTGTCCCTTATCGATCTTAAAGGCAACATCGTCATGCAGAAGTCCCTTAACAT TTTAAAAGATGATCATAATGCTAAGGAGACAGATTATAAGGGTTTGCTTACTGAGCGCGAGGGGGAGAATAAGGAG GCCCGCCGCAACTGGAAAAAAATCGCGAATATTAAAGATTTAAAACGCGGTTACTTAAGCCAAGTTGTTCACATCA TTTCCAAGATGATGGTTGAGTACAACGCGATCGTCGTCCTTGAGGACCTTAACCCTGGTTTTATCCGTGGTCGTCA AAAGATTGAACGCAATGTCTACGAACAATTTGAGCGCATGTTAATTGATAAGTTAAACTTTTACGTAGACAAACAT AAAGGCGCCAACGAAACCGGTGGACTTTTGCACGCATTACAGCTTACATCGGAATTTAAAAATTTCAAGAAGAGCG AGCATCAGAATGGGTGTCTGTTTTACATCCCAGCCTGGAACACCTCAAAGATCGACCCCGCTACGGGCTTTGTCAA CCTTTTCAACACGAAATATACGAACGCAGTAGAAGCTCAGGAGTTTTTCTCAAAATTTGATGAGATCCGTTACAAC GAAGAAAAGGATTGGTTTGAGTTTGAATTTGACTACGACAAGTTCACACAGAAGGCGCATGGAACTCGCACGAAAT GGACACTGTGCACGTATGGAATGCGCCTGCGTAGTTTCAAGAATAGTGCTAAGCAATACAATTGGGATAGTGAGGT CGTAGCTTTGACTGAGGAATTCAAGCGTATTTTGGGGGAGGCTGGGATTGATATCCACGAAAATCTTAAAGATGCA ATCTGCAATTTGGAAGGTAAAAGTCAAAAATACTTGGAGCCACTTATGCAATTTATGAAGCTGCTTTTGCAGTTAC GCAATTCTAAAGCGGGCACGGATGAAGACTACATCTTATCGCCAGTGGCCGATGAGAATGGAATCTTCTACGATTC TCGTTCTTGCGGAGATCAATTACCGGAGAATGCAGATGCAAACGGAGCCTATAATATCGCGCGCAAAGGGCTTATG TTGATCGAACAAATCAAGAATGCAGAAGACTTGAATAATGTCAAATTCGATATTAGCAATAAGGCATGGCTGAACT TTGCTCAGCAGAAACCTTACAAGAATGGTTGA SEQ ID NO: 141 ART35_Optimized2 ATTAAAGCCATTAACGAGTACTACAAACAACTTGGAGCTTACTGCCGCGAAGAAGGTAAAGAGAAAGATGATTTCT TTAAGCGCATTGACGGTGCTTATTGCGCCATCAGCCATTTATTCTTCGGCGAGCATGGGGAAATCGCTCAGAGTGA CTCCGACGTGGAGTTAATCCAGAAGCTGCTGGAAGCCTATAAAGGGTTACAACGCTTTATCAAGCCATTACTGGGT CATGGCGACGAAGCGGACAAGGATAACGAATTTGATGCAAAACTTCGCAAGGTGTGGGACGAGTTGGACATCATCA CGCCACTTTACGATAAAGTGCGTAACTGGCTTTCACGCAAAATTTATAATCCGGAGAAGATCAAGCTGTGTTTCGA AAACAATGGTAAGCTTCTGTCTGGATGGGTTGATTCCCGTACAAAATCAGATAACGGCACTCAGTATGGAGGTTAC ATTTTTCGCAAGAAAAACGAAATCGGCGAGTATGACTTCTACCTTGGAATCTCAGCTGATACCAAACTGTTCCGTC GTGACGCCGCGATCTCATATGACGACGGAATGTACGAGCGCCTTGACTACTACCAGTTGAAGTCTAAAACGCTGCT TGGAAATTCGTACGTGGGCGATTATGGGTTAGACTCTATGAACTTATTGTCTGCCTTCAAGAATGCGGCGGTCAAA TTTCAATTCGAGAAGGAGGTGGTGCCCAAGGATAAGGAAAACGTGCCTAAGTACTTAAAGCGCTTAAAGTTAGATT ATGCTGGATTTTACCAAATCTTGATGAATGATGACAAGGTAGTAGACGCTTACAAGATCATGAAACAACACATCTT AGCAACTCTTACATCCTCAATCCGTGTACCAGCCGCTATCGAATTGGCGACACAAAAAGAGCTGGGAATCGACGAA TTGATCGATGAAATCATGAACTTGCCATCCAAATCTTTTGGGTACTTCCCGATTGTGACGGCTGCTATCGAAGAGG CAAACAAACGTGAAAATAAGCCCTTATTTTTGTTTAAAATGAGTAACAAAGATTTAAGTTATGCCGCAACGGCTAG CAAGGGATTGCGCAAGGGTCGCGGAACAGAAAATTTGCACTCCATGTACCTGAAGGCGTTGCTTGGGATGACCCAA TCTGTGTTCGATATTGGTAGCGGCATGGTTTTTTTTCGCCATCAGACCAAGGGTTTAGCAGAAACTACGGCCCGTC ATAAGGCCAACGAATTCGTAGCAAATAAAAACAAACTGAATGACAAGAAGAAAAGTATCTTTGGGTACGAGATCGT GAAGAACAAACGCTTTACAGTTGACAAGTACTTGTTCAAGCTTAGTATGAACCTGAACTACTCACAACCCAATAAT AACAAGATCGATGTTAACTCAAAGGTACGCGAGATTATTAGCAACGGGGGTATCAAAAACATCATTGGGATTGATC GTGGTGAGCGTAATCTGTTATACTTGTCCCTGATCGACTTGAAAGGTAACATCGTCATGCAAAAAAGCCTGAATAT TCTTAAGGACGACCACAACGCCAAGGAGACAGACTACAAAGGCTTGTTAACTGAACGTGAAGGAGAAAATAAGGAA GCACGCCGTAATTGGAAAAAGATCGCAAACATTAAGGACCTGAAACGCGGGTACTTGTCTCAGGTCGTCCATATTA TTTCCAAAATGATGGTCGAATATAATGCGATCGTAGTGCTTGAAGACCTGAATCCCGGCTTCATCCGTGGGCGTCA AAAAATTGAACGTAATGTCTATGAACAGTTTGAGCGTATGTTGATTGACAAACTGAACTTCTACGTAGATAAGCAT AAGGGAGCGAATGAAACCGGCGGCCTTTTACACGCGTTGCAGTTAACGAGTGAGTTCAAAAACTTCAAAAAGTCCG AGCACCAAAATGGGTGCCTGTTTTACATCCCCGCGTGGAATACGAGTAAGATTGATCCTGCAACTGGGTTCGTGAA CTTATTTAATACCAAATATACGAATGCCGTTGAAGCCCAAGAATTCTTCTCCAAATTCGATGAGATCCGTTACAAT GAGGAAAAAGATTGGTTCGAGTTCGAGTTCGACTACGACAAGTTTACACAGAAAGCTCATGGTACGCGCACTAAGT GGACTTTATGTACGTACGGAATGCGTTTGCGCTCCTTTAAAAACTCTGCAAAACAGTACAACTGGGACAGCGAAGT AGTGGCATTAACCGAAGAATTCAAGCGTATTTTAGGGGAAGCGGGTATCGATATTCACGAAAATTTAAAGGATGCT ATTTGTAATTTGGAAGGCAAAAGTCAAAAGTACTTGGAACCGTTAATGCAATTCATGAAATTGTTGCTGCAATTGC GCAACTCGAAAGCGGGGACCGATGAAGATTATATTCTGAGCCCTGTGGCGGACGAGAACGGGATCTTTTATGACAG CCGTTCTTGTGGTGACCAACTTCCCGAAAATGCTGATGCAAATGGGGCATATAACATTGCTCGTAAAGGATTAATG CTGATCGAACAAATCAAAAATGCCGAAGATTTAAACAATGTCAAGTTTGATATCAGTAACAAGGCGTGGTTGAACT TTGCTCAGCAAAAACCGTATAAGAATGGTTGA SEQ ID NO: 142 ART35_Optimized3 ATTAAGGCAATTAACGAGTACTACAAACAATTAGGCGCGTATTGCCGTGAAGAAGGAAAGGAAAAGGACGACTTCT TCAAGCGTATCGATGGTGCGTACTGCGCGATCAGCCACCTTTTTTTCGGGGAGCATGGAGAAATTGCACAGTCCGA TTCTGACGTAGAATTAATCCAGAAGTTATTAGAAGCATATAAAGGCCTGCAACGCTTCATCAAACCGCTGCTTGGA CACGGAGATGAGGCAGATAAAGATAATGAGTTCGATGCTAAGCTTCGTAAAGTCTGGGACGAATTGGACATTATCA CGCCATTGTATGATAAGGTCCGTAATTGGCTGTCCCGCAAGATTTACAATCCTGAGAAGATTAAATTATGTTTCGA GAACAATGGCAAACTGTTGAGTGGGTGGGTCGACTCTCGTACCAAATCGGACAATGGAACCCAGTACGGGGGGTAT ATTTTTCGTAAGAAAAACGAGATCGGCGAATACGACTTTTATTTGGGTATTAGTGCAGACACAAAGTTATTCCGTC GCGATGCGGCAATCTCTTACGATGACGGGATGTACGAACGCTTAGATTATTATCAGTTAAAATCAAAGACCTTGCT TGGCAACTCCTACGTCGGGGATTATGGGTTGGACAGCATGAACTTGTTGAGTGCCTTTAAGAACGCAGCCGTAAAG TTTCAGTTTGAAAAGGAGGTAGTACCGAAAGACAAAGAAAACGTTCCTAAATATCTTAAACGTCTGAAGTTGGACT ACGCCGGGTTCTACCAAATTCTGATGAACGACGATAAGGTAGTAGACGCCTATAAGATTATGAAACAACATATTCT GGCCACGTTGACAAGCTCTATCCGCGTGCCAGCGGCTATTGAGTTGGCGACTCAAAAGGAATTAGGCATCGATGAG TTGATCGACGAAATCATGAATTTGCCAAGCAAGTCATTCGGTTACTTCCCTATCGTTACTGCCGCGATTGAAGAAG CAAACAAACGCGAGAACAAACCGCTGTTTCTGTTCAAAATGTCGAACAAAGACTTGAGCTACGCTGCAACCGCTTC CAAAGGACTTCGCAAGGGACGCGGCACAGAAAATTTACACTCCATGTATTTGAAGGCATTGTTAGGTATGACCCAA TCAGTTTTTGACATCGGTTCGGGTATGGTATTCTTTCGTCACCAGACAAAAGGACTTGCTGAGACAACAGCGCGCC ATAAGGCCAACGAGTTCGTCGCTAACAAAAACAAGTTAAACGACAAAAAAAAGTCCATTTTCGGATATGAAATCGT TAAGAACAAACGCTTTACGGTTGATAAGTATCTTTTTAAACTGAGCATGAACTTGAATTATAGTCAGCCCAATAAT AACAAGATCGATGTCAATTCCAAAGTTCGCGAGATCATTTCCAATGGTGGCATCAAAAACATCATCGGGATTGACC GCGGAGAACGTAATTTACTGTATTTATCGTTGATCGACCTGAAGGGGAATATCGTAATGCAAAAAAGTCTGAATAT CCTTAAAGATGACCACAACGCAAAGGAAACGGACTACAAGGGGTTATTAACCGAGCGCGAGGGCGAGAATAAAGAA GCACGCCGTAATTGGAAGAAAATCGCGAACATCAAAGACTTGAAGCGCGGCTACTTATCGCAAGTGGTACATATTA TCTCCAAGATGATGGTTGAGTACAACGCGATCGTAGTATTAGAAGATCTTAATCCAGGATTTATCCGCGGGCGTCA GAAGATTGAACGCAACGTGTATGAGCAGTTTGAGCGCATGCTTATTGATAAATTGAATTTTTATGTTGATAAACAT AAAGGTGCAAATGAAACAGGGGGCTTATTGCATGCTCTGCAACTTACTTCGGAATTTAAGAATTTTAAGAAGTCGG AGCATCAGAATGGGTGTTTATTTTATATCCCCGCATGGAATACCTCCAAGATTGATCCCGCCACAGGGTTCGTTAA TCTGTTCAACACGAAATACACCAATGCTGTTGAGGCACAGGAATTCTTCTCCAAGTTTGACGAGATTCGCTACAAT GAGGAAAAGGACTGGTTTGAATTTGAGTTTGACTACGACAAGTTTACTCAAAAGGCACATGGTACACGCACCAAAT GGACGCTTTGCACGTACGGTATGCGTTTACGCTCATTCAAAAACAGCGCCAAACAATACAACTGGGACTCCGAAGT CGTCGCACTGACTGAGGAGTTTAAACGTATTTTGGGGGAAGCAGGTATCGATATTCACGAAAACTTGAAGGATGCT ATCTGTAACCTGGAGGGTAAGAGCCAAAAATACTTGGAGCCATTAATGCAGTTCATGAAGTTGCTTCTGCAATTGC GCAATTCGAAAGCAGGGACAGATGAGGATTATATTTTAAGCCCCGTCGCAGACGAGAACGGCATTTTCTATGATAG TCGCTCTTGTGGTGACCAACTTCCAGAAAATGCAGACGCGAACGGCGCATATAACATTGCTCGCAAAGGGCTTATG CTGATTGAACAAATTAAGAATGCGGAAGACCTGAACAACGTAAAGTTTGACATCTCGAACAAGGCATGGTTAAACT TCGCACAGCAGAAGCCATACAAGAATGGTTGA SEQ ID NO: 143 ART1_WT METFSGFTNLYPLSKTLRFRLIPVGETLKHFIDSGILEEDQHRAESYVKVKAIIDDYHRAYIENSLSGFELPLESTK FNSLEEYYLYHNIRNKTEEIQNLSSKVRTNLRKQVVAQLTKNEIFKRIDKKELIQSDLIDFVKNEPDANEKIALISE FRNFTVYFKGFHENRRNMYSDEEKSTSIAFRLIHENLPKFIDNMEVFAKIQNTSISENFDAIQKELCPELVTLCEMF KLGYFNKTLSQKQIDAYNTVIGGKTTSEGKKIKGLNEYINLYNQQHKQEKLPKMKLLFKQILSDRESASWLPEKFEN DSQVVGAIVNFWNTIHDTVLAEGGLKTIIASLGSYGLEGIFLKNDLQLTDISQKATGSWGKISSEIKQKIEVMNPQK KKESYETYQERIDKIFKSYKSFSLAFINECLRGEYKIEDYFLKLGAVNSSSLQKENHFSHILNTYTDVKEVIGLYSE STDTKLIQDNDSIQKIKQFLDAVKDLQAYVKPLLGNGDETGKDERFYGDLIEYWSLLDLITPLYNMVRNYVTQKPYS VDKIKINFQNPTLLNGWDLNKETDNTSVILRRDGKYYLAIMNNKSRKVFLKYPSGTDRNCYEKMEYKLLPGANKMLP KVFFSKSRINEFMPNERLLSNYEKGTHKKSGTCFSLDDCHTLIDFFKKSLDKHEDWKNFGFKFSDTSTYEDMSGFYK EVENQGYKLSFKPIDATYVDQLVDEGKIFLFQIYNKDFSEHSKGTPNMHTLYWKMLFDETNLGDVVYKLNGEAEVFF RKASINVSHPTHPANIPIKKKNLKHKDEERILKYDLIKDKRYTVDQFQFHVPITMNFKADGNGNINQKAIDYLRSAS DTHIIGIDRGERNLLYLVVIDGNGKICEQFSLNEIEVEYNGEKYSTNYHDLLNVKENERKQARQSWQSIANIKDLKE GYLSQVIHKISELMVKYNAIVVLEDLNAGFMRGRQKVEKQVYQKFEKKLIEKLNYLVFKKQSSDLPGGLMHAYQLAN KFESFNTLGKQSGFLFYIPAWNTSKMDPVTGFVNLFDVKYESVDKAKSFFSKFDSIRYNVERDMFEWKFNYGEFTKK AEGTKTDWTVCSYGNRIITFRNPDKNSQWDNKEINLTENIKLLFERFGIDLSSNLKDEIMQRTEKEFFIELISLFKL VLQMRNSWTGTDIDYLVSPVCNENGEFFDSRNVDETLPQNADANGAYNIARKGMILLDKIKKSNGEKKLALSITNRE WLSFAQGCCKNG SEQ ID NO: 144 ART2_WT MLSNFTNQYQLSKTLRFELKPVGDTLKHIEKSGLIAQDEIRSQEYQEVKTIIDKYHKAFIDEALQNVVLS AIVEDMFELSYFNHLLSQTHIDLYNQMIGGVKQDSLKIQGLNEKINLYRQANGLSKRELPNLKPLHKQIL SDRETLSWLPESFESDEELMQGVQAYFESEVLAFECCDGKVNLLEKLPELLHQTQDYDFSKVYFKNDLAL TAASQAIFKDYRIIKEALWEVNKPKKSKDLVADEEKFFNKKNSYFSIEQIDGALNSAQLSANMMHYFQSE STKVIEQIQLTYNDWKRNSSNKELLKAFLDALLSYORLLKPLNAPNDLEKDVAFYAYFDAYFTSLCGVVK LYDKVRNEMTKKPYSLEKFKLNFENSTLLDGWDVNKESDNTAILFRKEGLYYLGIMNKKYNKVFRNISSS QDEGYQKIDYKLLPGANKMLPKVFFSDKNKEYFKPNAKLLERYKAGEHKKGDNFDLDFCHELIDFFKTSI EKHQDWKHFAYQFSPTESYEDLSGFYREVEQQGYKISYKNIAASFIDTLVAEGKLYFFQIYNKDFSPYSK GTPNMHTLYWRALFDEKNLADVIYKLNGQAEIFFRKKSIEYSQEKLQKGHHHEMLKDKFAYPIIKDRRFA FDKFQFHVPITLNFKAEGNENITPKTFEYIRSNPDNIKVIGIDRGERHLLYLSLIDAEGKIVEQFTLNQI INSYNGKDHVIDYHAKLDAKEKDRDKARKEWGTVENIKELKEGYLSHVIHKIATLIIEHGAVVAMEDLNF GFKRGRFKVEKQVYQKFEKALIDKLNYLVDKKKEPHKLGGLLNALQLTSKFQSFEKMGKQNGFLFYVPAW NTSKIDPVTGFVNLFDTRYASVEKSKAFFTKFQSICYNEAKDYFELVFDYNDFTEKAKETRSEWTLCTYG ERIVSFRNAEKNHOWDSKTIHLTTEFKNLFGELHGNDVKEYILEQNSVEFFKSLIYLLKITLQMRNSITG TDIDYLVSPVADEAGNFYDSRKADTSLPKDADANGAYNIARKGLMLMHRIQNAEDLKKVNLAISNRDWLR NAQGLDK SEQ ID NO: 145 ART3_WT MIDLKQFIGIYPVSKTLRFELRPVGKTQEWIEKNRVLEGDEQKAADYPVVKKLIDDYHKVCIHDSLNHVH FDWEPLKDAIEIFQKTKSDEAKKRLEAEQAMMRKKIAAAIKDFKHFKELTAATPSDLITSVLPEFSDDGS LKSFRGFATYFSGFQENRNNIYSQEAISTGVPYRLVHDNFPKFLSDLEVFERIKSTCPEVINQASAELQP FLEGVMIDDIFSLDFYNSLLTQNGIDFFNQVIGGVSEKDKQKYRGINEFSNLYRQQHKEIAASKKAMTMI PLFKQILSDRDTLSYIPAQIRTEDELVSSITQFYDHITHFEHDGKTINVLSEIVALLGKLDTYDPNGICI TARKLTDISQKVYGKWSVIEEKMKEKAIQQYGDISVAKNKKKVDAFLSRKAYSLSDLCFDEEISFSRYYS ELPQTLNAISGYWLQFNEWCKSDEKQKFLNNQTGTEVVKSLLDAMMELFHKCSVLVMPEEYEVDKSFYNE FLPLYEELDTLFLLYNKVRNYLTQKPSDVKKFKLNFESPSLASGWDQNKEMKNNAILLFKDGKSYLGVLN AKNKAKIKDAKGDVSSSSYKKMIYKLLSDPSKDLPHKIFAKGNLDFYKPSEYILEGRELGKYKKGPNFDK KFLHDFIDFYKAAISIDPDWSKFNFQYSPTESYDDIGMFFSEIKKQAYKIRFTDISEAQVNEWVDNGQLY LFQLYNKDYAEGAHGRKNLHTLYWENLFTDENLSNLVLKLNGQAELFCRPQSIKKPVSHKIGSKMLNRRD KSGMPIPESIYRSLYQYYNGKKKESELTVAEKQYIDQVIVKDVTHEIIKDRRYTRQEYFFHVPLTFNANA DGNEYINEHVLNYLKDNPDVNIIGIDRGERHLIYLTLINQRGEILKQKTFNVVNSYNYQAKLEQREKERD EARKSWDSVGKIKDLKEGFLSAVIHEITNMMIENNAIVVLEDLNFGFKRGRFKVERQVYQKFEKMLIDKL NYLSFKDREAGEEGGILRGYQMAQKFISFORLGKQSGFLFYIPAAYTSKIDPVSGFVNHFNFSDITNAEK RKDFLMKMDRIEMKNGNIEFTFDYRKFKTFQTDYQNVWTVSTFGKRIVMRIDEKGYKKMVDYEPTNDIIK AFKNKGILLSEGSDLKALIAEIEANATNAGFYSTLLYAFQKTLQMRNSNAVTEEDYILSPVAKDGHQFCS TDEANKGKDAQGNWVSKLPVDADANGAYHIALKGLYLLRNPETKKIENEKWLQFMVEKPYLE SEQ ID NO: 146 ART4_WT MSYNREKMEEKELGKNQNFQEFIGVSPLQKTLRNELIPTETTKKNIAQLDLLTEDEVRAQNREKLKEMMD DYYRDVIDSTLRGELLIDWSYLFSCMRNHLSENSKESKRELERTQDSVRSQIHDKFAERADFKDMFGASI ITKLLPTYIKQNSKYSERYDESVKIMKLYGKFTTSLTDYFETRKNIFSKEKISSAVGYRIVEENAEIFLQ NQNAYDRICKIAGLDLHGLDNEITAYVDGKTLKEVCSDEGFAKVITQGGIDRYNEAIGAVNQYMNLLCQK NKALKPGQFKMKRLHKQILCKGTTSFDIPKKFENDKQVYDAVNSFTEIVTKNNDLKRLLNITQNANDYDM NKIYVVADAYSMISQFISKKWNLIEECLLDYYSDNLPGKGNAKENKVKKAVKEETYRSVSQLNEVIEKYY VEKTGQSVWKVESYISSLAEMIKLELCHEIDNDEKHNLIEDDEKISEIKELLDMYMDVFHIIKVFRVNEV LNFDETFYSEMDEIYQDMQEIVPLYNHVRNYVTQKPYKQEKYRLYFHTPTLANGWSKSKEYDNNAIILVR EDKYYLGILNAKKKPSKEIMAGKEDCSEHAYAKMNYYLLPGANKMLPKVFLSKKGIQDYHPSSYIVEGYN EKKHIKGSKNFDIRFCRDLIDYFKECIKKHPDWNKFNFEFSATETYEDISVFYREVEKQGYRVEWTYINS IHKCGSILVNRTYEITESGTTRVQSIPESEYMELYRYFNSEKQIELSDEAKKYLDKVQCNKAKTDIVKDY RYTMDKFFIHLPITINFKVDKGNNVNAIAQQYIAEQEDLHVIGIDRGERNLIYVSVIDMYGRILEQKSFN LVEQVSSQGTKRYYDYKEKLONREEERDKARKSWKTIGKIKELKEGYLSSVIHEIAQMVVKYNAIIAMED LNYGFKRGRFKVERQVYQKFETMLISKLNYLADKSQAVDEPGGILRGYQMTYVPDNIKNVGRQCGIIFYV PAAYTSKIDPTTGFINAFKRDVVSTNDAKENFLMKFDSIQYDIEKGLFKFSFDYKNFATHKLTLAKTKWD VYTNGTRIQNMKVEGHWLSMEVELTTKMKELLDDSHIPYEEGQNILDDLREMKDITTIVNGILEIFWLTV QLRNSRIDNPDYDRIISPVLNNDGEFFDSDEYNSYIDAQKAPLPIDADANGAFCIALKGMYTANQIKENW VEGEKLPADCLKIEHASWLAFMQGERG SEQ ID NO: 147 ARTS_WT MSAVFKIKESTMKDFTHQYSLSKTLRFELKPVGETAERIEDFKNQGLKSIVEEDRQRAEDYKKMKRILDD YHKEFIEEVLNDDIFTANEMESAFEVYRKYMASKNDDKLKKEITEIFTDLRKKIAKAFENKSKEYCLYKG DFSKLINEKKTGKDKGPGKLWYWLKAKADAGVNEFGDGQTFEQAEEALAKFNNFSTYFTGFNQNRDNIYT DAEQQTAISYRVINENMTRYFDNCIRYSSIENKYPELVKQLEPLSGKFAPGNYKDYLSQTAIDIYNEAVG HKSDDINAKGINQFINEYRQRNSIKGRELPIMSVLYKQILSDINKDLIIDKFENAGELLDAVKTLHRELT DKKILLKIKQTLNEFLTEDNSEDIYIKSGTDLTAVSNAIWGEWSVIPKALEMYAENITDMNAKAREKWLK REAYHLKTVQEAIEAYLKDNEEFETRNISEYFTNFKSGENDLIQVVQSAYAKMESIFGIEDFHKDRRPVT ESGEPGEGFRQVELVREYLDSLINVEHFIKPLHMFRSGKPIELEDCNSNFYDPLNEAYKELDVVFGIYNK VRNYVTQKPYSKDKFKINFQNSTLLDGWDVNKESANSSVLLLKNGKYYLGVMKQGASNILNYRPEPSDSK NKINAKKOLSEIALAGATDDYYEKMIYKLLPDPAKMLPKVFFSAKNIEFYNPSQEIIYIRENGLFKKDAG DKESLKKWIGFMKTSLLKHPEWGSYFNFEFEPAEDYQDISIFYKQVAEQGYSVTFDKIKTSYIEEKVASG ELYLFEIYNKDFSPHSKGRPNLHTMYWKSLFEKENLQNLVTKLNGEAEVFFRQHSIKRNEKVVHRANRPI QNKNPLTEKKQSIFEYDLVKDRRFTKDKFFLHCPITLNFKEAGPGRFNDKVNKYIAGNPDIRIIGIDRGE RHLLYYSLIDQSGRIVEQGTLNQITSTLNSGGREIPKTTDYRGLLDTKEKERDKARKSWSMIENIKELKS GYLSHIVHKLAKLMVKNNAVVVLEDLNFGFKRGRFKVEKQVYQKFEKALIEKLNYLVFKDARPAEPGHYL NAYQLTAPLESFKKLGKQSGFIYYVPAWNTSKIDPVTGFVNQFYIEKNSMQYLKNFFGKFDSIRFNPDKN YFEFGFDYKNFHNKAAKSKWTICTHGDKRSWYNRKQRKLEIHNVTENLASLLSGKGINFADGGSIKDKIL SVDDASFFKSLAFNFKLTAQLRHTFEDNGEEIDCIISPVAAADGTFFCSETAKKLNMELPHDADANGAYN IARKGLMVLRQIRESGKPKPISNADWLDFAQQNED SEQ ID NO: 148 ARTS_WT MQERKKISHLTHRNSVQKTIRMQLNPVGKTMDYFQAKQILENDEKLKENYQKIKEIADRFYRNLNEDVLS KTGLDKLKDYAEIYYHCNTDAERKRLDECASELRKEIVKNFKNRDEYNKLFNKKMIEIVLPQHLKNEDEK EVVASFKNFTTYFTGFFTNRKNMYSDGEESTAIAYRCINENLPKHLDNVKAFEKAISKLSKNAIDDLDAT YSGLCGTNLYDVFTVDYFNFLLPQSGITEYNKIIGGYTTSDGTKVKGINEYINLYNQQVSKRDKIPNLKI LYKQILSESEKVSFIPPKFEDDNELLSAVSEFYANDETFDGMPLKKAIDETKLLFGNLDNSSLNGIYIQN DRSVTNLSNSMFGSWSVIEDLWNKNYDSVNSNSRIKDIQKREDKRKKAYKAEKKLSLSFLQVLISNSEND EIREKSIVNYYKTSLMQLTDNLSDKYNEAAPLLNKSYANEKGLKNDDKSISLIKNFLDAIKEIEKFIKPL SETNITGEKNDLFYSQFTPLLDNISRIDILYDKVRNYVTQKPFSTDKIKLNFGNSQLLNGWDRNKEKDCG AVWLCRDEKYYLAIIDKSNNSILENIDFQDCDENDCYEKIIYKLLPGPNKMLPKVFFSEKCKKLLSPSDE ILKIRKNGTFKKGDKFSLDDCHKLIDFYKESFKKYPNWLIYNFKFKNTNEYNDIREFYNDVASQGYNISK MKIPTSFIDKLVDEGKIYLFQLYNKDFSPHSKGTPNLHTLYFKMLFDERNLEDVVYKLNGEAEMFYRPAS IKYDKPTHPKNTPIKNKNTLNDKKTSTFPYDLIKDKRYTKWQFSLHFPITMNFKAPDRAMINDDVRNLLK SCNNNFIIGIDRGERNLLYVSVIDSNGAIIYQHSLNIIGNKFKGKTYETNYREKLATREKERTEQRRNWK AIESIKELKEGYISQAVHVICQLVVKYDAIIVMEKLTDGFKRGRTKFEKQVYQKFEKMLIDKLNYYVDKK LDPDEGGGLLHAYQLTNKLESFDKLGMQSGFIFYVRPDFTSKIDPVTGFVNLLYPRYENIDKAKDMISRF DDIGYNAGEDFFEFDIDYDKFPKTASDYRKRWTICTNGERIEAFRNPAKNNEWSYRTIILAEKFKELFDN NSINYRDSDDLKAEILSQTKGKFFEDFFKLLRLTLQMRNSNPETGEDRILSPVKDKNGNFYDSSKYDEKS KLPCDADANGAYNIARKGLWIVEQFKKSDNVSTVGPVIHNDKWLKFVQENDMANN SEQ ID NO: 149 ART7_WT MNILKENYMKEIKELTGLYSLTKTIGVELKPVGKTQELIEAKKLIEQDDQRAEDYKIVKDIIDRYHKDFI DKCLNCVKIKKDDLEKYVSLAENSNRDAEDFDKIKTKMRNQITEAFRKNSLFTNLFKKNLIKEYLPAFVS EEEKSVVNKFSKFTTYFDAFNDNRKNLYSGDAKSGTIAYRLIHENLPMFLDNIASFNAISGIGVNEYFSS IETEFTDTLEGKRLTEFFQIDFFNNTLTQKKIGNYNYIVGAVNKAVNLYKQQHKTVRVPLLKPLYKMILS DRVTPSWLPERFESDEEMLTAIKAAYESLREVLVGDNDESLRNLLLNIEHYDLEHIYIANDSGLTSISQK IFGCYDTYTLAIKDQLQRDYPATKKQREAPDLYDERIDKLYKKVGSFSIAYLNRLVDAKGHFTINEYYKQ LGAYCREEGKEKDDFFKRIDGAYCAISHLFFGEHGEIAQSDSDVELIQKLLEAYKGLQRFIKPLLGHGDE ADKDNEFDAKLRKVWDELDIITPLYDKVRNWLSRKIYNPEKIKLCFENNGKLLSGWVDSRTKSDNGTQYG GYIFRKKNEIGEYDFYLGISADTKLFRRDAAISYDDGMYERLDYYQLKSKTLLGNSYVGDYGLDSMNLLS AFKNAAVKFQFEKEVVPKDKENVPKYLKRLKLDYAGFYQILMNDDKVVDAYKIMKQHILATLTSSIRVPA AIELATQKELGIDELIDEIMNLPSKSFGYFPIVTAAIEEANKRENKPLFLFKMSNKDLSYAATASKGLRK GRGTENLHSMYLKALLGMTQSVFDIGSGMVFFRHQTKGLAETTARHKANEFVANKNKLNDKKKSIFGYEI VKNKRFTVDKYLFKLSMNLNYSQPNNNKIDVNSKVREIISNGGIKNIIGIDRGERNLLYLSLIDLKGNIV MQKSLNILKDDHNAKETDYKGLLTEREGENKEARRNWKKIANIKDLKRGYLSQVVHIISKMMVEYNAIVV LEDLNPGFIRGROKIERNVYEQFERMLIDKLNFYVDKHKGANETGGLLHALQLTSEFKNFKKSEHQNGCL FYIPAWNTSKIDPATGFVNLFNTKYTNAVEAQEFFSKFDEIRYNEEKDWFEFEFDYDKFTQKAHGTRTKW TLCTYGMRLRSFKNSAKQYNWDSEVVALTEEFKRILGEAGIDIHENLKDAICNLEGKSQKYLEPLMQFMK LLLQLRNSKAGTDEDYILSPVADENGIFYDSRSCGDQLPENADANGAYNIARKGLMLIEQIKNAEDLNNV KFDISNKAWLNFAQQKPYKNG SEQ ID NO: 150 ART8_WT MAKENIFNELTGKYQLSKTLRLELKPVGNTQQMLKDEDVFEKDRIIREKYRETRPHFDRLHREFIEQALK NQKLSDLGKYFQCLAKLQNNKKDKEAQEEFKRISQNLRKEVNDLFKIDPLFGEGVFALLKEKYGEKDDAF LREQDGQYVLDENKKKISIFDSWKGFTGYFTKFQETRKNFYKDDGTATAVATRIIDQNLKRFCENIQIFK SIQKKVDFKEVEDNFSVDLEDIFSLGFYSSCFLQEGIDVYNKILGGEPKTTGEKLRGLNELINRYRQDHK GEKLPFFKMLDKQILSEKEKFIESIEDDEELLKTLKEFYSSAEEKTTVLKELFNDFIKNNENYDLSEIYI SREALNTISHRWVSAATLPEFEKSVYEVMKKDKPSGLSFDKDDNSYKFPDFIALSYIKGSFEKLSGEKLW KDGYFRDETRNGDKGFLIGNESLWTQFIKIFEFEFNSLFEAKNTERSVGYYHFKKDFEKIITNDFSVNPE DKVIIREFADNVLAIYQMAKYFAIEKKRKWMDQYDTGDFYNHPDFGYKTKFYDNAYEKIVKARMLLQSYL TKKPFSTDKWKLNFECGYLLNGWSSSFNTYGSLLFRTGNEYYLGVVNGSALRTEKIKRLTGNITEANSCH KMVYDFQKPDNKNVPRIFIRSKGDKFAPAVSELNLPVDSILEIYDKGLFKTENKNSPFFKPSLKKLIDYF KLGFSRHASYKHYQFKWKDSSEYKNISEFYNDTIRSCYQIKWEELNFEEVKKLTNSKDLFLFQIYNKDFS EKSTGNKNLHSIYFDGLFLDNNINAQDGVILKLSGGGEIFFRPKTDVKKLGSRTDTKGKLVIKNKRYSQD KIFLHFPIELNYSNTQESNFNKLVRNFLADNPDINIIGVDRGEKHLIYYAGIDQKGNTLKDKDDKDVLGS LNEINGVNYYKLLEERAKAREKARQDWQNIQGIKDLKMGYISLVVRKLADLITEYNAILVLEDLNMRFKQ IHGGIEKSVYQQLEKALIEKLNFLVNKGEKDPERAGHLLRAYQLTAPFSTFKDMGKQTGVLFYTQASYTS KTCPQCGFRPNIKLHFDNLENAKKMLEKINIVYKDNHFEIGYKVSDFTKTEKTSRGNILYGDRQGKDTFV ISSKAAIRYKWFARNIKNNELNRGESLKEHTEKGVTIQYDITECLKILYEKNGIDHSGDITKQSIRSELP AKFYKDLLFYLYLLTNTRSSISGTEIDYINCPDCGFHSEKGFNGCIFNGDANGAYNIARKGMLILKKINQ YKDQHHTMDKMGWGDLFIGIEEWDKYTQVVSRS SEQ ID NO: 151 ART9_WT MKEIKELTGLYSLTKTIGVELKPVGKTQELIEAKKLIEQDDQRAEDYKIVKDIIDRYHKDFIDKCLNCVK IKKDDLEKYVSLAENSNRDAEDFDKIKTKMRNQITEAFRKNSLFTNLFKKNLIKEYLPAFVSEEEKSVVN KFSKFTTYFDAFNDNRKNLYSGDAKSGTIAYRLIHENLPMFLDNIASFNAISGIGVNEYFSSIETEFTDT LEGKRLTEFFQIDFFNNTLTQKKIGNYNYIVGAVNKAVNLYKQQHKTVRVPLLKPLYKMILSDRVTPSWL PERFESDEEMLTAIKAAYESLREVLVGDNDESLRNLLLNIEHYDLEHIYIANDSGLTSISQKIFGCYDTY TLAIKDQLQRDYPATKKOREAPDLYDERIDKLYKKVGSFSIAYLNRLVDAKGHFTINEYYKQLGAYCREE GKEKDDFFKRIDGAYCAISHLFFGEHGEIAQSDSDVELIQKLLEAYKGLQRFIKPLLGHGDEADKDNEFD AKLRKVWDELDIITPLYDKVRNWLSRKIYNPEKIKLCFENNGKLLSGWVDSRTKSDNGTQYGGYIFRKKN EIGEYDFYLGISADTKLFRRDAAISYDDGMYERLDYYQLKSKTLLGNSYVGDYGLDSMNLLSAFKNAAVK FQFEKEVVPKDKENVPKYLKRLKLDYAGFYQILMNDDKVVDAYKIMKQHILATLTSSIRVPAAIELATQK ELGIDELIDEIMNLPSKSFGYFPIVTAAIEEANKRENKPLFLFKMSNKDLSYAATASKGLRKGRGTENLH SMYLKALLGMTQSVFDIGSGMVFFRHQTKGLAETTARHKANEFVANKNKLNDKKKSIFGYEIVKNKRFTV DKYLFKLSMNLNYSQPNNNKIDVNSKVREIISNGGIKNIIGIDRGERNLLYLSLIDLKGNIVMQKSLNIL KDDHNAKETDYKGLLTEREGENKEARRNWKKIANIKDLKRGYLSQVVHIISKMMVEYNAIVVLEDLNPGF IRGRQKIERNVYEQFERMLIDKLNFYVDKHKGANETGGLLHALQLTSEFKNFKKSEHQNGCLFYIPAWNT SKIDPATGFVNLFNTKYTNAVEAQEFFSKFDEIRYNEEKDWFEFEFDYDKFTQKAHGTRTKWTLCTYGMR LRSFKNSAKQYNWDSEVVALTEEFKRILGEAGIDIHENLKDAICNLEGKSQKYLEPLMQFMKLLLQLRNS KAGTDEDYILSPVADENGIFYDSRSCGDQLPENADANGAYNIARKGLMLIEQIKNAEDLNNVKFDISNKA WLNFAQQKPYKNG SEQ ID NO: 152 ART10_WT MNFQPFFQKFVHLYPISKTLRFELIPQGATQKFISEKQVLLQDEIRARKYPEMKQAIDGYHKDFIQRALS NIDSQVFEQALNTFEDLFLRSQAERATDAYKKDFETAQTKLRELIVHSFEKGEFKQEYKSLFDKNLITNL LKPWVEQQNQIGDSNYTYHEDFNKFTTYFLGFHENRKNIYSKDPHKTALAYRLIHENLPKFLENNKILLK IQNDHPSLWEQLQTLNQTMPQLFDGWDFSQLMQVSFFSNTLTQTGIDQYNTIIGGISEGENRQKIQGINE LINLYNQKQDKKNRVAKLKQLYKQILSDRSTLSFLPEKFVDDTELYHAINMFYLEHLHHQSMINGHSYTL LERVOLLINELANYDLSKVYLAPNQLSTVSHQMFGDFGYIGRALNYYYMQVIQPDYEQLLASAKTTKKIE ATEKLKTIFLDTPQSLVVIQAAIDEYIQLQPSTKPHTQLTDFIISLLKQYETVADDQSIKVINVFSDIEG KYSCIKGLVNTKSESKREVLQDEKLATDIKAFMDAVNNVIKLLKPFSLNEKLVASVEKDARFYSDFEEIY QSLLIFVPLYNKVRNYITQKPYSTEKFKLNFNKPTLLSGWDANKEADNLSILLRKNGNYYLAIMDTAKGA NKAFEPKTLNQLKVDDTTDCYEKMVYKLLSGPSKMFPKAFKAKNNEGNYYPTPELLTSYNNNEHLKNDKN FTLASLHAYIDWCKEYINRNPSWHQFNFKFSPTQSFQDISQFYSEVSSQSYKVHFQTIPSDYIDQLVAEG KLYLFQIYNKDFSPNAKGKENLHTLYFKALFSDENLKQPVFKLSGEAEMFYRPASLQLANTTIHKAGEPM AAKNPLTPNATRTLAYDIIKDRRFTTDKYLLHVPISLNFHAQESMSIKKHNDLVRQMIKHNHQDLHVIGI DRGEKHLLYVSVIDLKGNIVYQESLNSIKSEAQNFETPYHQLLQHREEGRAQARTAWGKIENIKELKDGY LSQVVHRIQQLILKYNAIVMLEDLNFGFKRGRFKIEKQIYQKFEKALIHKLNYVVDKSTQADELGGVRKA YQLTAPFESFEKLGKQSGVLFYVPAWNTSKIDPVTGFVDLLKPKYENLDKAQAFFNAFDSIHYNAQKNYF EFKVNLKQFAGLKAQAAQAEWTICSYGDERHVYQKKNAQQGETVIVNVTEELKVLFAKNNIEVAQSVELK ETICTQTQVDFFKRLMWLLQVLLALRYSSSKDKLDYILSPVANAQGEFFDSRHASVQLPQDSDANGAYHI ALKGLWVIEQLKAADNLDKVKLAISNDDWLHFAQQKPYLA SEQ ID NO: 153 ART11_WT MYYQGLTKLYPISKTIRNELIPVGKTLEHIRMNNILEADIQRKSDYERVKKLMDDYHKQLINESLQDVHL SYVEEAADLYLNASKDKDIVDKFSKCQDKLRKEIVNLLKSHENFPKIGNKEIIKLLQSLSDTEKDYNALD SFSKFYTYFTSYNEVRKNLYSDEEKSSTAAYRLINENLPKFLDNIKAYSIAKSAGVRAKELTEEEQDCLF MTETFERTLTQDGIDNYNELIGKLNFAINLYNQQNNKLKGFRKVPKMKELYKQILSEREASFVDEFVDDE ALLTNVESFSAHIKEFLESDSLSRFAEVLEESGGEMVYIKNDTSKTTFSNIVFGSWNVIDERLAEEYDSA NSKKKKDEKYYDKRHKELKKNKSYSVEKIVSLSTETEDVIGKYIEKLQADIIAIKETREVFEKVVLKEHD KNKSLRKNTKAIEAIKSFLDTIKDFERDIKLISGSEHEMEKNLAVYAEQENILSSIRNVDSLYNMSRNYL TQKPFSTEKFKLNFNRATLLNGWDKNKETDNLGILLVKEGKYYLGIMNTKANKSFVNPPKPKTDNVYHKV NYKLLPGPNKMLPKVFFAKSNLEYYKPSEDLLAKYQAGTHKKGENFSLEDCHSLISFFKDSLEKHPDWSE FGFKFSDTKKYDDLSGFYREVEKQGYKITYTDIDVEYIDSLVEKDELYLFQIYNKDFSPYSKGNYNLHTL YLTMLFDERNLRNVVYKLNGEAEVFYRPASIGKDELIIHKSGEEIKNKNPKRAIDKPTSTFEYDIVKDRR YTKDKFMLHIPVTMNFGVDETRRFNEVVNDAIRGDDKVRVIGIDRGERNLLYVVVVDSDGTILEQISLNS IINNEYSIETDYHKLLDEKEGDRDRARKNWTTIENIKELKEGYLSQVVNVIAKLVLKYDAIICLEDLNFG FKRGRQKVEKQVYQKFEKMLIDKLNYLVIDKSRSQENPEEVGHVLNALQLTSKFTSFKELGKQTGIIYYV PAYLTSKIDPTTGFANLFYVKYESVEKSKDFFNRFDSICFNKVAGYFEFSFDYKNFTDRACGMRSKWKVC TNGERIIKYRNEEKNSSFDDKVIVLTEEFKKLFNEYGIAFNDCMDLTDAINAIDDASFFRKLTKLFQQTL QMRNSSADGSRDYIISPVENDNGEFFNSEKCDKSKPKDADANGAFNIARKGLWVLEQLYNSSSGEKLNLA MTNAEWLEYAQQHTI SEQ ID NO: 154 ART12_WT MAKNFEDFKRLYPLSKTLRFEAKPIGATLDNIVKSGLLEEDEHRAASYVKVKKLIDEYHKVFIDRVLDNG CLPLDDKGDNNSLAEYYESYVSKAQDEDAIKKFKEIQQNLLSIIAKKLTDDKAYANLFGNKLIESYKDKA DKTKLIDSDLIQFINTAESTOLVSMSQDEAKELVKEFWGFTTYFEGFFKNRKNMYTPEEKSTGIAYRLIN ENLPKFIDNMEAFKKAIARPEIQANMEELYSNFSEYLNVESIQEMFLLDYYNMLLTQKQIDVYNAIIGGK TDDEHDVKIKGINEYINLYNQQHKDDKLPKLKALFKQILSDRNAISWLPEEFNSDQEVLNAIKDCYERLA ENVLGDKVLKSLLGSLADYSLDGIFIRNDLQLTDISQKMFGNWGVIQNAIMQNIKHVAPARKHKESEEDY EKRIAGIFKKADSFSISYINDCLNEADPNNAYFVENYFATFGAVNTPTMQRENLFALVQNAYTEVAALLH SDYPTVKHLAQDKANVSKIKALLDAIKSLQHFVKPLLGKGDESDKDERFYGELASLWAELDTVTPLYNMI RNYMTRKPYSQKKIKLNFENPQLLGGWDANKEKDYATIILRRNGLYYLAIMDKDSRKLLGKAMPSDGECY EKMVYKFFKDVTTMIPKCSTQLKDVQAYFKVNTDDYVLNSKAFNRPLTITKEVFDLNNVLYGKYKKFQKG YLTATGDNVGYTHAVNVWIKFCMDFLDSYDSTCIYDFSSLKPESYLSLDSFYQDVNLLLYKLSFTDVSAS FIDQLVEEGKMYLFQIYNKDFSEYSKGTPNMHTLYWKALFDERNLADVVYKLNGQAEMFYRKKSIENTHP THPANHPILNKNKDNKKKESLFEYDLIKDRRYTVDKFMFHVPITMNFKSSGSENINQDVKAYLRHADDMH ELKEGYLSQVIHKITQLMVRYHAIVVLEDLSKGFMRSRQKVEKQVYQKFEKMLIDKLNYLVDKKTDVSTP GGLLNAYQLTCKSDSSQKLGKQSGFLFYIPAWNTSKIDPVTGFVNLLDTHSLNSKEKIKAFFSKFDAIRY NKDKKWFEFNLDYDKFGKKAEDTRTKWTLCTRGMRIDTFRNKEKNSQWDNQEVDLTTEMKSLLEHYYIDI HGNLKDAISTQTDKAFFTGLLHILKLTLQMRNSITGTETDYLVSPVADENGIFYDSRSCGDQLPENADAN GAYNIARKGLMLVEQIKDAEDLDNVKFDISNKAWLNFAQQKPYKNG SEQ ID NO: 155 ART13_WT MAKNFEDFKRLYSLSKTLRFEAKPIGATLDNIVKSGLLDEDEHRAASYVKVKKLIDEYHKVFIDRVLDDG CLPLENKGNNNSLAEYYESYVSRAQDEDAKKKFKEIQQNLRSVIAKKLTEDKAYANLFGNKLIESYKDKE DKKKIIDSDLIQFINTAESTQLDSMSQDEAKELVKEFWGFVTYFYGFFDNRKNMYTAEEKSTGIAYRLVN ENLPKFIDNIEAFNRAITRPEIQENMGVLYSDFSEYLNVESIQEMFOLDYYNMLLTQKQIDVYNAIIGGK TDDEHDVKIKGINEYINLYNQQHKDDKLPKLKALFKQILSDRNAISWLPEEFNSDQEVLNAIKDCYERLA ENVLGDKVLKSLLGSLADYSLDGIFIRNDLQLTDISQKMFGNWGVIQNAIMQNIKRVAPARKHKESEEDY EKRIAGIFKKADSFSISYINDCLNEADPNNAYFVENYFATFGAVNTPTMQRENLFALVQNAYTEVAALLH SDYPTVKHLAQDKANVSKIKALLDAIKSLQHFVKPLLGKGDESDKDERFYGELASLWAELDTVTPLYNMI RNYMTRKPYSQKKIKLNFENPQLLGGWDANKEKDYATIILRRNGLYYLAIMDKDSRKLLGKAMPSDGECY EKMVYKFFKDVTTMIPKCSTQLKDVQAYFKVNTDDYVLNSKAFNKPLTITKEVFDLNNVLYGKYKKFQKG YLTATGDNVGYTHAVNVWIKFCMDFLNSYDSTCIYDFSSLKPESYLSLDAFYQDANLLLYKLSFARASVS YINQLVEEGKMYLFQIYNKDFSEYSKGTPNMHTLYWKALFDERNLADVVYKLNGQAEMFYRKKSIENTHP THPANHPILNKNKDNKKKESLFDYDLIKDRRYTVDKFMFHVPITMNFKSVGSENINQDVKAYLRHADDMH IIGIDRGERHLLYLVVIDLOGNIKEQYSLNEIVNEYNGNTYHTNYHDLLDVREEERLKARQSWQTIENIK ELKEGYLSQVIHKITQLMVRYHAIVVLEDLSKGFMRSRQKVEKQVYQKFEKMLIDKLNYLVDKKTDVSTP GGLLNAYQLTCKSDSSQKLGKQSGFLFYIPAWNTSKIDPVTGFVNLLDTHSLNSKEKIKAFFSKFDAIRY NKDKKWFEFNLDYDKFGKKAEDTRTKWTLCTRGMRIDTFRNKEKNSQWDNQEVDLTTEMKSLLEHYYIDI HGNLKDAISAQTDKAFFTGLLHILKLTLQMRNSITGTETDYLVSPVADENGIFYDSRSCGNQLPENADAN GAYNIARKGLMLIEQIKNAEDLNNVKFDISNKAWLNFAQQKPYKNG SEQ ID NO: 156 ART14_WT MAKNFEDFKRLYSLSKTLRFEAKPIGATLDNIVKSDLLDEDEHRAASYVKVKKLIDEYHKVFIDRVLDDG CLPLENKGNNNSLAEYYESYVSRAQDEDAKKKFKEIQQNLRSVIAKKLTEDKAYANLFGNKLIESYKDKE DKKKIIDSDLIQFINTAESTQLDSMSQDEAKELVKEFWGFVTYFYGFFDNRKNMYTAEEKSTGIAYRLVN ENLPKFIDNIEAFNRAITRPEIQENMGVLYSDFSEYLNVESIQEMFQLDYYNMLLTQKQIDVYNAIIGGK TDDEHDVKIKGINDYINLYNQKHKDDKLPKLKALFKQILSDRNAISWLPEEFNSDQEVLNAIKDCYERLS ENVLGDKVLKSMLGSLADYSLDGIFIRNDLQLTDISQKMFGNWSVIQNAIMQNIKHVAPARKHKESEEEY ENRIAGIFKKADSFSISYIDACLNETDPNNAYFVENYFATLGAVDTPTMQRENLFALVQNAYTEITALLH SDYPTEKNLAQDKANVAKIKALLDAIKSLQHFVKPLLGKGDESDKDERFYGELASLWAELDTMTPLYNMI RNYMTRKPYSQKKIKLNFENPQLLGGWDANKEKDYATIILRRNGLYYLAIMNKDSKKLLGKAMPSDGECY EKMVYKLLPGANKMLPKVFFAKSRMEDFKPSKELVEKYYNGTHKKGKNFNIQDCHNLIDYFKQSIDKHED WSKFGFKFSDTSTYEDLSGFYREVEQQGYKLSFARVSVSYINQLVEEGKMYLFQIYNKDFSEYSKGTPNM HTLYWKALFDERNLADVVYKLNGQAEMFYRKKSIENTHPTHPANHPILNKNKDNKKKESLFGYDLIKDRR YTVDKFLFHVPITMNFKSSGSENINQDVKAYLRHADDMHIIGIDRGERHLLYLVVIDLQGNIKEQFSLNE IVNDYNGNTYHTNYHDLLDVREDERLKARQSWQTIENIKELKEGYLSQVIHKITQLMVKYHAIVVLEDLN MGFMRGRQKVEKQVYQKFEKMLIEKLNYLVDKKADASVSGGLLNAYQLTSKFDSFQKLGKQSGFLFYIPA WNTSKIDPVTGFVNLLDTRYQNVEKAKSFFSKFDAIRYNKDKEWFEFNLDYDKFGKKAEGTRTKWTLCTR GMRIDTFRNKEKNSQWDNQEVDLTAEMKSLLEHYYIDIHSNLKDAISAQTDKAFFTGLLHILKLTLQMRN SITGTETDYLVSPVVDENGIFYDSRSCGDELPENADANGAYNIARKGLMMIEQIKDAKDLDNLKFDISNK AWLNFAQQKPYKNG SEQ ID NO: 157 ART15_WT MLFQDFTHLYPLSKTVRFELKPIGRTLEHIHAKNFLSQDETMADMYQKVKVILDDYHRDFIADMMGEVKL TKLAEFYDVYLKFRKNPKDDELQKQLKDLQAVLRKESVKPIGNGGKYKAGHDRLFGAKLFKDGKELGDLA KFVIAQEGKSSPKLAHLAHFEKFSTYFTGFHDNRKNMYSDEDKHTAIAYRLIHENLPRFIDNLQILTTIK QKHSALYDQIINELTASGLDVSLASHLDGYHKLLTQEGITAYNRIIGEVNGYTNKHNQICHKSERIAKLR PLHKQILSDGMGVSFLPSKFADDSEMCQAVNEFYRHYADVFAKVQSLFDGFDDHQKDGIYVEHKNLNELS KQAFGDFALLGRVLDGYYVDVVNPEFNERFAKAKTDNAKAKLTKEKDKFIKGVHSLASLEQAIKHHTARH DDESVQAGKLGQYFKHGLAGVDNPIQKIHNNHSTIKGFLERERPAGERALPKIKSGKNPEMTQLRQLKEL LDNALNVAHFAKLLMTKTTLDNQDGNFYGEFGVLYDELAKIPTLYNKVRDYLSQKPFSTEKYKLNFGNPT LLNGWDLNKEKDNFGVILQKDGCYYLALLDKAHKKVFDNAPNTGKNVYQKMIYKLLPGPNKMLPRVFFAK SNLDYYNPSAELLDKYAQGTHKKGDNFNLKDCHALIDFFKAGINKHPEWQNFGFKFSPTSSYRDLSDFYR EVEPQGYQVKFVDINADYIDELVEQGQLYLFQIYNKDFSPKAHGKPNLHTLYFRALFSEDNLANPIYKLN GEAQIFYRKASLGMNETTIHRAGEILENKNPDNPKERVFTYDIIKDRRYTQDKFMLHVPITMNFGVQGMT IKEFNKKVNQSIRQYDDVNVIGIDRGERHLLYLTVINSKGEILEQRSLNDITTASANGTQMTTPYHKILD KREIERLNARVGWGEIETIKELKSGYLSHVVHQVSQLMLKYNAIVVLEDLNFGFKRGRFKVEKQIYQNFE NALIKKLNHLELKDKADDEIGSYKNALQLTNNFTDLKNIGKQTGFLFYVPAWNTSKIDPETGFVDLLKPR YENIAQSQAFFGKFDKICYNADKDYFEFHIDYAKFTDKAKNSRQTWTICSHGDKRYVYDKTANQNKGATK GINVNDELKSLFARYHINEKQPNLVMDICONNDKEFHKSLMYLLKTLLALRYSNASSDEDFILSPVANDE GVFFNSALADDTQPQNADANGAYHIALKGLWLLNELKNSDDLNKVKLAIDNQTWLNFAQNR SEQ ID NO: 158 ART16_WT MLFQDFTHLYPLSKTVRFELKPIGKTLEHIHAKNFLSQDETMADMYQKVKAILDDYHRDFITKMMSEVTL TKLPEFYEVYLALRKNPKDDTLQKQLTEIQTALREEVVKPIDSGGKYKAGYERLFGAKLFKDGKELGDLA KFVIAQEGESSPKLPQIAHFEKFSTYFTGFHDNRKNMYSSDDKHTAIAYRLIHENLPRFIDNLQILVTIK QKHSVLYDQIVNELNANGLDVSLASHLDGYHKLLTQEGITAYNRIIGEVNSYTNKHNQICHKSERIAKLR PLHKQILSDGMGVSFLPSKFADDSEMCQAVNEFYRHYAHVFAKVQSLFDRFDDYQKDGIYVEHKNLNELS KQAFGDFALLGRVLDGYYVDVVNPEFNDKFAKAKTDNAKEKLTKEKDKFIKGVHSLASLEQAIEHYIAGH DDESVQAGKLGQYFKHGLAGVDNPIQKIHNSHSTIKGFLERERPAGERTLPKIKSDKSLEMTQLRQLKEL LDNALNVVHFAKLLTTKTTLDNQDGNFYGEFGALYDELAKIATLYNKVRDYLSQKPFSTEKYKLNFGNPT LLNGWDLNKEKDNFGVILQKDGCYYLALLDKAHKKVFDNAPNTGKSVYQKMVYKLLPGPNKMLPKVFFAK SNLDYYNPSAELLDKYAQGTHKKGDNFNLKDCHALIDFFKASINKHPEWQHFGFEFSLTSSYQDLSDFYR EVEPQGYQVKFVDIDADYIDELVEQGQLYLFQIYNKDFSPKAHGKPNLHTLYFKALFSEDNLANPIYKLN GEAEIFYRKASLDMNETTIHRAGEVLENKNPDNPKERQFVYDIIKDKRYTQDKFMLHVPITMNFGVQGMT IKEFNKKVNQSIQQYDEVNVIGIDRGERHLLYLTVINSKGEILEQRSLNDIITTSANGTQMTTPYHKILD KREIERLNARVGWGEIETIKELKSGYLSHVVHQISQLMLKYNAIVVLEDLNFGFKRGRFKVEKQIYQNFE NALIKKLNHLVLKDKADNEIGSYKNALQLTNNFTDLKSIGKQTGFLFYVPAWNTSKIDPVTGFVDLLKPR YENIAQSQAFFDKFDKICYNADKGYFEFHIDYAKFTDKAKNSRQIWTICSHGDKRYVYDKTANQNKGATI GINVNDELKSLFARYRINDKQPNLVMDICQNNDKEFHKSLTYLLKALLALRYSNASSDEDFILSPVANDK GVFFNSALADDTQPQNADANGAYHIALKGLWLLNELKNSDDLDKVKLAIDNQTWLNFAQNR SEQ ID NO: 159 ART17_WT MLFQDFTHLYPLSKTVRFELKPIGKTLEHIHAKNFLSQDETMADMYQKVKAILDDYHRDFITKMMSEVTL TKLPEFYEVYLALRKNPKDDTLQKQLTEIQTALREEVVKPIDSGGKYKAGYERLFGAKLFKDGKELGDLA KFVIAQEGESSPKLPQIAHFEKFSTYFTGFHDNRKNMYSSDDKHTAIAYRLIHENLPRFIDNLQILVTIK QKHSVLYDQIVNELNANGLDVSLASHLDGYHKLLTQEGITAYNRIIGEVNSYTNKHNQICHKSERIAKLR PLHKQILSDGMGVSFLPSKFADDSEMCQAVNEFYRHYAHVFAKVQSLFDRFDDYQKDGIYVEHKNLNELS KQAFGDFALLGRVLDGYYVDVVNPEFNDKFAKAKTDNAKEKLTKEKDKFIKGVHSLASLEQAIEHYIAGH DDESVQAGKLGQYFKHGLAGVDNPIQKIHNSHSTIKGFLERERPAGERTLPKIKSDKSLEMTQLRQLKEL LDNALNVVHFAKLLTTKTTLDNQDGNFYGEFGALYDELAKIATLYNKVRDYLSQKPFSTEKYKLNFGNPT LLNGWDLNKEKDNFGVILQKDGCYYLALLDKAHKKVFDNAPNTGKSVYQKMVYKLLPGSNKMLPKVFFAK SNLDYYNPSAELLDKYAQGTHKKGDNFNLKDCHALIDFFKASINKHPEWQHFGFEFSLTSSYQDLSDFYR EVEPQGYQVKFVDIDADYIDELVEQGQLYLFQTYNKDFSPKAHGKPNLHTLYFKALFSEDNLANPIYKLN GEAEIFYRKASLDMNETTIHRAGEVLENKNPDNPKERQFVYDIIKDKRYTQDKFMLHVPITMNFGVQGMT IKEFNKKVNQSIQQYDEVNVIGIDRGERHLLYLTVINSKGEILEQRSLNDIITTSANGTQMTTPYHKILD KREIERLNARVGWGEIETIKELKSGYLSHVVHQISQLMLKYNAIVVLEDLNFGFKRGRFKVEKQIYQNFE NALIKKLNHLVLKDKADNEIGSYKNALQLTNNFTDLKSIGKQTGFLFYVPAWNTSKIDPVTGFVDLLKPR YENIAQSQAFFDKFDKICYNADKGYFEFHIDYAKFTDKAKNSRQIWTICSHGDKRYVYDKTANQNKGATI GINVNDELKSLFARYRINDKQPNLVMDICQNNDKEFHKSLTYLLKALLALRYSNASSDEDFILSPVANDK GVFFNSALADDTQPQNADANGAYHIALKGLWLLNELKNSDDLDKVKLAIDNQTWLNFAQNR SEQ ID NO: 160 ART18_WT MKYTDFTGIYPVSKTLRFELIPQGSTVENMKREGILNNDMHRADSYKEMKKLIDEYHKVFIERCLSDFSL KYDDTGKHDSLEEYFFYYEQKRNDKTKKIFEDIQVALRKQISKRFTGDTAFKRLFKKELIKEDLPSFVKN DPVKTELIKEFSDFTTYFQEFHKNRKNMYTSDAKSTAIAYRIINENLPKFIDNINAFHIVAKVPEMQEHF KTIADELRSHLQVGDDIDKMFNLQFFNKVLTQSQLAVYNAVIGGKSEGNKKIQGINEYVNLYNQQHKKAR LPMLKLLYKQILSDRVAISWLQDEFDNDQDMLDTIEAFYNKLDSNETGVLGEGKLKQILMGLDGYNLDGV FLRNDLQLSEVSQRLCGGWNIIKDAMISDLKRSVQKKKKETGADFEERVSKLFSAQNSFSIAYINQCLGQ AGIRCKIQDYFACLGAKEGENEAETTPDIFDQIAEAYHGAAPILNARPSSHNLAQDIEKVKAIKALLDAL KRLQRFVKPLLGRGDEGDKDSFFYGDFMPIWEVLDQLTPLYNKVRNRMTRKPYSQEKIKLNFENSTLLNG WDLNKEHDNTSVILRREGLYYLGIMNKNYNKIFDANNVETIGDCYEKMIYKLLPGPNKMLPKVFFSKSRV QEFSPSKKILEIWESKSFKKGDNFNLDDCHALIDFYKDSIAKHPDWNKFNFKFSDTQSYTNISDFYRDVN QQGYSLSFTKVSVDYVNRMVDEGKLYLFQIYNKDFSPQSKGTPNMHTLYWRMLFDERNLHNVIYKLNGEA EVFYRKASLRCDRPTHPAHQPITCKNENDSKRVCVFDYDIIKNRRYTVDKFMFHVPITINYKCTGSDNIN QQVCDYLRSAGDDTHIIGIDRGERNLLYLVIIDQHGTIKEQFSLNEIVNEYKGNTYCTNYHTLLEEKEAG NKKARQDWQTIESIKELKEGYLSQVIHKISMLMQRYHAIVVLEDLNGSFMRSROKVEKQVYQKFEHMLIN KLNYLVNKQYDAAEPGGLLHALQLTSRMDSFKKLGKQSGFLFYIPAWNTSKIDPVTGFVNLFDTRYCNEA KAKEFFEKFDDISYNDERDWFEFSFDYRHFTNKPTGTRTQWTLCTQGTRVRTFRNPEKSNHWDNEEFDLT QAFKDLFNKYGIDIASGLKARIVNGQLTKETSAVKDFYESLLKLLKLTLQMRNSVTGTDIDYLVSPVADK DGIFFDSRTCGSLLPANADANGAFNIARKGLMLLRQIQQSSIDAEKIQLAPIKNEDWLEFAQEKPYL SEQ ID NO: 161 ART19_WT METFSGFTNLYPLSKTLRFRLIPVGETLKYFIGSGILEEDQHRAESYVKVKAIIDDYHRAYIENSLSGFE LPLESTGKFNSLEEYYLYHNIRNKTEEIQNLSSKVRTNLRKQVVAQLTKNEIFKRIDKKELIQSDLIDFV KNEPDANEKIALISEFRNFTVYFKGFHENRRNMYSDEEKSTSIAFRLIHENLPKFIDNMEVFAKIQNTSI SENFDAIQKELCPELVTLCEMFKLGYFNKTLSQKQIDAYNTVIGGKTTSEGKKIKGLNEYINLYNQQHKQ EKLPKMKLLFKQILSDRESASWLPEKFENDSQVVGAIVNFWNTIHDTVLAEGGLKTIIASLGSYGLEGIF LKNDLQLTDISQKATGSWGKISSEIKQKIEVMNPQKKKESYETYQERIDKIFKSYKSFSLAFINECLRGE YKIEDYFLKLGAVNSSSLQKENHFSHILNTYTDVKEVIGFYSESTDTKLIRDNGSIQKIKLFLDAVKDLQ AYVKPLLGNGDETGKDERFYGDLIEYWSLLDLITPLYNMVRNYVTQKPYSVDKIKINFQNPTLLNGWDLN KETDNTSVILRRDGKYYLAIMNNKSRKVFLKYPSGTDRNCYEKMEYKLLPGANKMLPKVFFSKSRINEFM PNERLLSNYEKGTHKKSGTCFSLDDCHTLIDFFKKSLDKHEDWKNFGFKFSDTSTYEDMSGFYKEVENQG YKLSFKPIDATYVDQLVDEGKIFLFQIYNKDFSEHSKGTPNMHTLYWKMLFDETNLGDVVYKLNGEAEVF FRKASINVSHPTHPANIPIKKKNLKHKDEERILKYDLIKDKRYTVDQFQFHVPITMNFKADGNGNINQKA IDYLRSASDTHIIGIDRGERNLLYLVVIDGNGKICEQFSLNEIEVEYNGEKYSTNYHDLLNVKENERKQA RQSWQSIANIKDLKEGYLSQVIHKISELMVKYNAIVVLEDLNAGFMRGRQKVEKQVYQKFEKKLIEKLNY LVFKKQSSDLPGGLMHAYQLANKFESFNTLGKQSGFLFYIPAWNTSKMDPVTGFVNLFDVKYESVDKAKS FFSKFDSIRYNVERDMFEWKFNYGEFTKKAEGTKTDWTVCSYGNRIITFRNPDKNSQWDNKEINLTENIK LLFERFGIDLSSNLKDEIMQRTEKEFFIELISLFKLVLQMRNSWTGTDIDYLVSPVCNENGEFFDSRNVD ETLPQNADANGAYNIARKGMILLDKIKKSNGEKKLALSITNREWLSFAQGCCKNG SEQ ID NO: 162 ART20_WT METFSGFTNLYPLSKTLRFRLIPVGETLKHFIDSGILEEDQHRAESYVKVKAIIDDYHRAYIENSLSGFE LPLESTGKFNSLEEYYLYHNIRNKTEEIQNLSSKVRTNLRKQVVVQLTKNEIFKRIDKKELIQSDLIDFV KNEPDANEKIALISEFRNFTVYFKGFHENRRNMYSDEEKSTSIAFRLIHENLPKFIDNMEVFAKIQNTSI SENFDAIQKELCPELVTLCEMFKLGYFNKTLSQKQIDAYNTVIGGKTTSEGKKIKGLNEYINLYNQQHKQ EKLPKMKLLFKQILSDRESASWLPEKFENDSQVVGAMVNFWNTIHDTVLAEGGLKTIIASLGSYGLEGIF LKNDLQLTDISQKATGSWSKISSEIKQKIEVMNPQKKKESYESYQERIDKLFKSYKSFSLAFINECLRGE YKIEDYFLKLGAVNSSSLQKENHFSHILNAYTDVKEAIGFYSESTDTKLIQDNDSIQKIKQFLDAVKDLQ AYVKPLLGNGDETGKDERFYGDLIEYWSLLDLITPLYNMVRNYVTQKPYSVDKIKINFQNPTLLNGWDLN KETDNTSVILRRDGKYYLAIMNNKSRKVFLKYPSGTDGNCYEKMEYKLLPGANKMLPKVFFSKSRINEFM PNERLLSNYEKGTHKKSGICFSLDDCHTLIDFFKKSLDKHEDWKNFGFKFSDTSTYEDMSGFYKEVENQG YKLSFKPIDATYVDQLVDEGKIFLFQIYNKDFSEHSKGTPNMHTLYWKMLFDETNLGDVVYKLNGEAEVF FRKASINVSHPTHPANIPIKKKNLKHKDEERILKYDLIKDKRYTVDQFQFHVPITMNFKADGNGNINQKA IDYLCSASDTHIIGIDRGERNLLYLVVIDGNGKICEQFSLNEIEVEYNGEKYSTNYHDLLNVKENERKQA ROSWQSIANIKDLKEGYLSQVIHKISELMVKYNAIVVLEDLNAGFMRGRQKVEKQVYQKFEKKLIEKLNY LVFKKQSSDLPGGLMHAYQLANKFESFNALGKQSGFLFYIPAWNTSKMDPVTGFVNLFDVKYESVDKAKS FFSKFDSMRYNVERDMFEWKFNYGEFTKKAEGTKTDWTVCSYGNRIITFRNPDKNSQWDNKEINLTENIK LLFERFGIDLSSNLKDEIMORTEKEFFIELISLFKLVLQMRNSWTGTDIDYLVSPVCNENGEFFDSRNVD ETLPQNADANGAYNIARKGMILLDKIKKSNGEKKLALSITNREWLSFAQGCCKNG SEQ ID NO: 163 ART21_WT METFSGFTNLYPLSKTLRFRLIPVGETLKHFIGSGILEEDQHRAESYVKVKAIIDDYHRTYIENSLSGFE LPLESTGKFNSLEEYYLYHNIRNKTEEIQNLSSKVRTNLRKQVVTQLTKNEIFKRIDKKELIQSDLIDFV KNEPDANEKIALISEFRNFTVYFKGFHENRRNMYSDEEKSTSIAFRLIHENLPKFIDNMEVFAKIQNTSI SENFDAIQKELCPELVTLCEMFKLGYFNKTLSQKQIDAYNTVIGGKTTSEGKKIKGLNEYINLYNQQHKQ EKLPKMKLLFKQILSDRESASWLLEKFENDSQVVGAMVNFWNTIHDTVLAEGGLKTIIASLGSYGLEGIF LKNDLQLTDISQKATGSWSKISSEIKQKIEAMNPQKKKESYESYQERIDKLFKSYKSFSLAFVNECLRGE YKIEDYFLKLGAVNSSLLQKENHFSHILNTYTDVKEVIGFYSESTDTKLIQDNDSIQKIKQFLDAVKDLQ AYVKPLLGNSDETGKDERFYGDLIEYWSLLDLITPLYNMVRNYVTQKPYSVDKIKINFQNPTLLNGWDLN KEMDNTSVILRRDGKYYLAIMNNKSRKVFLKYPSGTDRNCYEKMEYKLLPGANKMLPKVFFSKSRINEFM YKLSFKPIDATYVDOLVDEGKIFLFQIYNKDFSEHSKGTPNMHTLYWKMLFDETNLGDVVYKLNGEAEVF FRKASINVSHPTHPANIPIKKKNLKHKDEERILKYDLIKDKRYTVDQFQFHVPITMNFKANGNGNINQKA IDYLRSASDTHIIGIDRGERNLLYLVVIDGNGKICEQFSLNEIEVEYNGEKYSTNYHDLLNVKENERKQA RQSWQSIANIKDLKEGYLSQVIHKISELMVKYNAIVVLEDLNAGFMRGRQKVEKQVYQKFEKKLIEKLNY LVFKKQSSDLPGGLMHAYQLANKFESFNTLGKQSGFLFYIPAWNTSKMDPVTGFVNLFDVKYESVDKAKS FFSKFDSIRYNVERDMFEWKFNYDEFTKKAEGTKTDWTVCSYGNRIITFRNPDKNSQWDNKEINLTENIK LLFERFGIDLSSNLKDEIMERTEKEFFIELISLFKLVLQMRNSWTGTDIDYLVSPVCNENGEFFDSRNVD ETLPQNADANGAYNIARKGMILLDKIKKNNGEKKLTLSITNREWLSFAQGCCKNG SEQ ID NO: 164 ART22_WT MLFQDFTHLYPLSKTVRFELKPIGKTLEHIHAKNFLSQDKTMADMYQKVKAILDDYHRDFIADMMGEVKL TKLAEFCDVYLKFRKNPKDDGLQKQLKDLQAVLRKEIVKPIGNGGKYKVGYDRLFGAKLFKDGKELGDLA KFVIAQESESSPKLPQIAHFEKFSTYFTGFHDNRKNMYSSDDKHTAIAYRLIHENLPRFIDNLQILATIK QKHSALYDQIASELTASGLDVSLASHLGGYHKLLTQEGITAYNRIIGEVNSYTNKHNQICHKSERIAKLR PLHKQILSDGMGVSFLPSKFADDSEMCQAVNEFYRHYADVFAKVQSLFDRFDDYQKDGIYVEHKNLNELS KRAFGDFGFLKRFLEEYYADVIDPEFNEKFAKTEPDSDEQKKLAGEKDKFVKGVHSLASLEQVIEYYTAG YDDESVQADKLGQYFKHRLAGVDNPIQKIHNSHSTIKGFLERERPAGERALPKIKSDKSPEMTQLRQLKE LLDNALNVVHFAKLVSTETVLDTRSDKFYGEFRPLYVELAKITTLYNKVRDYLSQKPFSTEKYKLNFGNP TLLNGWDLNKEKDNFGVILQKDGCYYLALLDKAHKKVFDNAPNTGKSVYQKMVYKQIANARRDLACLLII NGKVVRKTKGLDDLREKYLPYDIYKIYQSESYKVLSPNFNHQDLVKYIDYNKILASGYFEYFDFRFKESS EYKSYKEFLDDVDNCGYKISFCNINADYIDELVEQGQLYLFQIYNKDFSPKAHGKPNLHTLYFKALFSED NLANPIYKLNGEAQIFYRKASLDMNETTIHRAGEVLENKNPDNPKQRQFVYDIIKDKRYTQDKFMLHVPI TMNFGVQGMTIEGFNKKVNQSIQQYDDVNVIGIDRGERHLLYLTVINSKGEILEQRSLNDIITTSANGTQ MTTPYHKILNKKKEGRLQARKDWGEIETIKELKAGYLSHVVHQISQLMLKYNAIVVLEDLNFGFKRGRLK TGFVDLLKPRYENITQSQAFFGKFDKICYNTDKGYFEFHIDYAKFTDEAKNSRQTWVICSHGDKRYVYNK TANQNKGATKGINVNDELKSLFACHHINDKQPNLVMDICQNNDKEFHKSLMYLLKALLALRYSNANSDED FILSPVANDEGVFFNSALADDTQPQNADANGAYHIALKGLWVLEQIKNSDDLDKVDLEIKDDEWRNFAQN R SEQ ID NO: 165 ART23_WT MGKNQNFQEFIGVSPLQKTLRNELIPTETTKKNITQLDLLTEDEIRAQNREKLKEMMDDYYRDVIDSTLH AGIAVDWSYLFSCMRNHLRENSKESKRELERTQDSIRSQTYNKFAERADFKDMFGASIITKLLPTYIKQN PEYSERYDESMEILKLYGKFTTSLTDYFETRKNIFSKEKISSAVGYRIVEENAEIFLQNQNAYDRICKIA GLDLHGLDNEITAYVDGKTLKEVCSDEGFAKAITQEGIDRYNEAIGAVNQYMNLLCQKNKALKPGQFKMK RLHKQILCKGTTSFDIPKKFENDKQVYDAVNSFTEIVMKNNDLKRLLNITQNVNDYDMNKIYVAADAYST SYISRLAETITLELCHEIENDEKHNLIEDDDKISKIKELLDMYMDAFHIIKVFRVNEVLNFDETFYSEMD EIYQDMQEIVPLYNHVRNYVTQKPYKQEKYRLYFNTPTLANGWSKNKEYDNNAIILMRDDKYYLGILNAK KKPSKQTMAGKEDCLEHAYAKMNYYLLPGANKMLPKVFLSKKGIQDYHPSSYIVEGYNEKKHIKGSKNFD IRFCRDLIDYFKECIKKHPDWNKFNFEFSATETYEDISVFYREVEKQGYRVEWTYINSEDIQKLEEDGQL FLFQIYNKDFAVGSTGKPNLHTLYLKNLFSEENLRDIVLKLNGEAEIFFRKSSVQKPVIHKCGSILVNRT YEITESGTTRVQSIPESEYMELYRYFNSEKQIELSDEAKKYLDKVQCNKAKTDIVKDYRYTMDKFFIHLP ITINFKVDKGNNVNAIAQQYIAEQEDLHVIGIDRGERNLIYVSVIDMYGRILEQKSFNLVEQVSSQGTKR YYDYKEKLONREEERDKARKSWKTIGKIKELKEGYLSSVIHEIAQMVVKYNAIIAMEDLNYGFKRGRFKV ERQVYQKFETMLISKLNYLADKSQAVDEPGGILRGYQMTYVPDNIKNVGRQCGIIFYVPAAYTSKIDPTT GFINAFKRDVVSTNDAKENFLMKFDSIQYDIEKGLFKFSFDYKNFATHKLTLAKTKWDVYTNGTRIQNMK VEGHWLSMEVELTTKMKELLDDSHIPYEEGQNILDDLREMKDITTIVNGILEIFWLTVQLRNSRIDNPDY DRIISPVLNNDGEFFDSDEYNSYIDAQKAPLPIDADANGAFCIALKGMYTANQIKENWVEGEKLPADCLK IEHASWLAFMQGERG SEQ ID NO: 166 ART2 RT24_WT MNTSLFSSFTRQYPVTKTLRFELKPMGATLGHIQQKGFLHKDEELAKIYKKIKELLDEYHRAFIADTLGD AQLVGLDDFYADYQALKQDSKNSHLKDKLTKTQDNLRKQITKNFEKTPQLKERYKRLFTKELFKAGKDKG DLEKWLINHDSEPNKAEKISWIHQFENFTTYFQGFYENRKNMYSDEVKHTAIAYRLIHENLPRFVDNIQV LSKIKSDYPDLYHELNHLDSRTIDFADFKFDDMLQMDFYHHLLIQSGITAYNTLLGGKVLEGGKKLQGIN ELINLYGQKHKIKIAKLKPLHKQILSDGQSVSFLPKKFDNDYELCQTVNHFYREYVAIFDELVVLFQKFY DYDKDNIYINHQQLNQLSHELFADFRLLSRALDFYYCQIIDGDFNNKINNAKSQNAKEKLLKEKERYTKS NHSINELQKAINHYASHHEDTEVKVISDYFSATNIRNMIDGIHHHFSTIKGFLEKDNNQGESYLPKQKNS NDVKNLKLFLDGVLRLIHFIKPLALKSDDTLEKEEHFYGEFMPLYDKLVMFTLLYNKVRDYISQKPYNDE KIKLNFGNSTLLNGWDVNKEKDNFGVILCKEGLYYLAILDKSHKKVFDNAPKATSSHTYQKMVYKLLPGP NKMLPKVFFAKSNIGYYQPSAQLLENYEKGTHKKGSNFSLTDCHHLIDFFKSSIAKHPEWKEFGFRFSDT HTYQDLSDFYKEIEPQSYKVKFIDIDADYIDDLVEKGQLYLFQLYNKDFSKQSYGKPNLHTLYFKSLFSD DNLKNPIYKLNGEAEIFYRRASLSVSDTTIHQAGEILTPKNPNNTHNRTLSYDVIKNKRYTTDKFFLHIP ITMNFGIENTGFKAFNHQVNTTLKNADKKDVHIIGIDRGERHLLYVSVIDGDGRIVEQRTLNDIVSISNN GMSMSTPYHQILDNREKERLAARTDWGDIKNIKELKAGYLSHVVHEVVQMMLKYNAMIVLEDLNFGFKHG RFKVEKQVYQNFENALIKKLNYLVLKNADNHQLGSVRKALQLTNNFTDIKSIGKQTGFIFYVPAWNTSKI DPTTGFVDLLKPRYENMAQAQSFISRFKKIAYNHQLDYFEFEFDYADFYQKTIDKKRIWTLCTYGDVRYY YDHKTKETKTVNITKELKSLLDKHDLSYQNGHNLVDELANSHDKSLLSGVMYLLKVLLALRYSHAQKNED FILSPVMNKDGVFFDSRFADDVLPNNADANGAYHIALKGLWVLNQIQSADNMDKIDLSISNEQWLHFTQS R SEQ ID NO: 167 ART25_WT MVGNKISNSFDSFTGINALSKTLRNELIPSDYTKRHIAESDFIAADTNKNEDQYVAKEMMDDYYRDFISK VLDNLHDIEWKNLFELMHKAKIDKSDATSKELIKIQDMLRKKIGKKFSQDPEYKVMLSAGMITKILPKYI LEKYETDREDRLEAIKRFYGFTVYFKEFWASRQNVFSDKAIASSISYRIIHENAKIYMDNLDAYNRIKQI ACEEIEKIEEEAYDFLQGDQLDVVYTEEAYGRFISQSGIDLYNNICGVINAHMNLYCQSKKCSRSKFKMQ KLHKQILCKAETGFEIPLGFQDDAQVINAINSFNALIKEKNIISRLRTIGKSISLYDVNKIYISSKAFEN VSVYIDHKWDVIASSLYKYFSEIVKGNKDNREEKIQKEIKKVKSCSLGDLQRLVNSYYKIDSTCLEHEVT EFVTKIIDEIDNFQITDFKFNDKISLIQNEQIVMDIKTYLDKYMSIYHWMKSFVIDELVDKDMEFYSELD ELNEDMSEIVNLYNKVRNYVTQKPYSQEKIKLNFGSPTLADGWSKSKEFDNNAIILIRDEKIYLAIFNPR NKPAKTVISGHDVCNSETDYKKMNYYLLPGASKTLPHVFIKSRLWNESHGIPDEILRGYELGKHLKSSVN FDVEFCWKLIDYYKECISCYPNYKAYNFKFADTESYNDISEFYREVECQGYKIDWTYISSEDVEQLDRDG QIYLFQIYNKDFAPNSKGMDNLHTKYLKNIFSEDNLKNIVIKLNGEAELFYRKSSVKKKVEHKKGTILVN KTYKVEDNTENSKEKRVIIESVPDDCYMELVDYWRNGGIGILSDKAVQYKDKVSHYEATMDIVKDRRYTV DKFFIHLPITINFKADGRININEKVLKYIAENDELHVIGIDRGERNLLYVSVINKKGKIVEQKSFNMIES YETVTNIVRRYNYKDKLVNKESARTDARKNWKEIGKIKEIKEGYLSQVIHEISKMVLKYNAIIVMEDLNY GFKRGRFRVERQVYQKFENMLISKLAYLVDKSRKADEPGGVLRGYQLTYIPDSLEKLGSQCGIIFYVPAA YTSKIDPLTGFVNVFNFREYSNFETKLDFVRSLDSIRYDTEKKLFSISFDYDNFKTHNTTLAKTKWVIYL RGERIKKEHTSYGWKDDVWNVESRIKDLFDSSHMKYDDGHNLIEDILELESSVQKKLINELIEIIRLTVQ LRNSKSERYDRTEAEYDRIVSPVMDENGRFYDSENYIFNEETELPKDADANGAYCIALKGLYNVIAIKNN WKEGEKFNRKLLSLNNYNWFDFIQNRRF SEQ ID NO: 168 ART26_WT MVGNKISNSFDSFTGINALSKTLRNELIPSDYTKRHIAESDFIAADTNKNEDQYVAKEMMDDYYRDFISK VLDNLHDIEWKNLFELMHKAKIDKSDATSKELIKIQDMLRKKIGKKFSQDPEYKVMLSAGMITKILPKYI LEKYETDREDRLEAIKRFYGFTVYFKEFWASRQNVFSDKAIASSISYRIIHENAKIYMDNLDAYNRIKQI ACEEIEKIEEEAYVFLQGDQLDVVYTEEAYGRFISQSGIDLYNNICGVINAHMNLYCQSKKCSRSKFKMQ KLHKQILCKAETGFEIPLGFQDDAQVINAINSFNALIKEKNIISRLRTIGKSISLYDVNKIYISSKAFEN VSVYIDHKWDVIASSLYKYFSEIVKGNKDNREEKIQKEIKKVKSCSLGDLQRLVNSYYKIDSTCLEHEVT EFVTKIIDGIDNFQITDFKFNDKISLIQNEQIVMDIKTYLDKYMSIYHWMKSFVIDELVDKDMEFYSELD ELNEDMSEIVNLYNKVRNYVTQKPYSQEKIKLNFGSPTLADGWSKSKEFDNNAIILIRDEKIYLAIFNPR NKPAKTVISGHDVCNSETDYKKMNYYLLPGASKTLPHVFIKSRLWNESHGIPDEILRGYELGKHLKSSVN FDVEFCWKLIDYYKECISCYPNYKAYNFKFADTESYNDISEFYREVECQGYKIDWTYISSEDVEQLDRDG QIYLFQIYNKDFAPNSKGMDNLHTKYLKNIFSEDNLKNIVIKLNGEAELFYRKSSVKKKVEHKKGTILVN KTYKVEDNTENSKEKRVIIESVPDDCYMELVDYWRNGGIGILSDKAVQYKDKVSHYEATMDIVKDRRYTV DKFFIHLPITINFKADGRININEKVLKYIAENDELHVIGIDRGERNLLYVSVINKKGKIVEQKSFNMIES YETVTNIVRRYNYKDKLVNKESARTDARKNWKEIGKIKEIKEGYLSQVIHEISKMVLKYNAIIVMEDLNY GFKRGRFRVERQVYQKFENMLISKLAYLVDKSRKADEPGGVLRGYQLTYIPDSLEKLGSQCGIIFYVPAA YTSKIDPLTGFVNVFNFREYSNFETKLDFVRSLDSIRYDTEKRLFSISFDYDNFKTHNTTLAKTKWVIYL RGERIKKEHTSYGWKDDVWNVESRIKDLFDSSHMKYDDGHNLIEDILELESSVQKKLINELIEIIRLTVQ LRNSKSERYDRTEAEYDRIVSPVMDEKGRFYDSENYIFNEETELPKDADANGAYCIALKGLYNVIAIKNN WKEGEKFNRKLLSLNNYNWFDFIQNRRF SEQ ID NO: 169 ART27_WT MQEHKKISHLTHRNSVQKTIRMQLNPVGKTMDYFQAKQILENDEKLKEDYQKIKEIADRFYRNLNEDVLS KTGLDKLKDYAEIYYHCNTDADRKRLDECASELRKEIVKNFKNRDEYNKLFNKKMIEIVLPQHLKNEDEK EVVASFKNFTTYFTGFFTNRKNMYSDGEESTAIAYRCINENLPKHLDNVKAFEKAISKLSKNAVDDLDTT YSGLCGTNLYDVFTVDYFNFLLPQSGITEYNKIIGGYTTSDGTKVKGINEYINLYNQQVSKRYKIPNLKI LYKQILSESEKVSFIPPKFEDDNELLSAVSEFYANDETFDGMPLKKAIDETKLLFGNLDNSSLNGIYIQN DRSVTNLSNSMFGSWSVIEDLWNKNYDSVNSNSRIKDIQKREDKRKKAYKAEKKLSLSFLQVLISNSEND EIREKSIVDYYKTSLMQLTDNLSDKYKEAAPLFNESYANEKGLKNDDKSISLIKNFLDAIKEIEKFIKPL SETNITGEKNDLFYSQFTPLLDNISRIDILYDKVRNYVTQKPFSTDKIKLNFGNSQLLNGWDRNKEKDCG AVWLCKDEKYYLAIIDKSNNSILENIDFQDCDESDCYEKIIYKLLPGPNKMLPKVFFSEKCKKLLSPSDE ILKIRKNGTFKKGDKFSLDDCHKLIDFYKESFKKYPNWLIYNFKFKKTNEYNDISEFYNDVASQGYNISK MKIPTSFIDKLVDEGKIYLFQLYNKDFSPHSKGTPNLHTLYFKMLFDERNLEDVVYKLNGEAEMFYRPAS IKYDKPTHPKNTPIKNKNTLNDKRASTFPYDLIKDKRYTKWQFSLHFPITMNFKAPDRAMINDDVRNLLK AIESIKELKEGYISQAVHVICQLVVKYDAIIVMEKLTDGFKRGRTKFEKQVYQKFEKMLIDKLNYYVDKK LDPDEEGGLLHAYQLTNKLESFDKLGMQSGFIFYVRPDFTSKIDPVTGFVNLLYPRYENIDKAKDMISRF DDIRYNAGEDFFEFDIDYDKFPKTASDYRKKWTICTNGERIEAFRNPASNNEWSYRTIILAEKFKELFDN NSINYRDSDNLKAEILSQTKGKFFEDFFKLLRLTLQMRNSNPETGEDRILSPVKDKNGNFYDSSKYDEKS NLPCDADANGAYNIARKGLWIVEQFKKSDNVSTVEPVIHNDKWLKFVQENDMANN SEQ ID NO: 170 ARI28_WT MKNLANFTNLYSLQKTLRFELKPIGKTLDWIIKKDLLKQDEILAEDYKIVKKIIDRYHKDFIDLAFESAY LQKKSSDSFTAIMEASIQSYSELYFIKEKSDRDKKAMEEISGIMRKEIVECFTGKYSEVVKKKFGNLFKK ELIKEDLLNFCEPDELPIIQKFADFTTYFTGFHENRENMYSNEEKATAIANRLIRENLPRYLDNLRIIRS IQGRYKDFGWKDLESNLKRIDKNLQYSDFLTENGFVYTFSQKGIDRYNLILGGQSVESGEKIQGLNELIN LYRQKNOLDRRQLPNLKELYKQILSDRTRHSFVPEKFSSDKALLRSLLDFHKEVIQNKNLFEEKQVSLLQ AIRETLTDLKSFDLDRIYLTNDTSLTQISNFVFGDWSKVKTILAIYFDENIANPKDRQRQSNSYLKAKEN WLKKNYYSIHELNEAISVYGKHSDEELPNTKIEDYFSGLQTKDETKKPIDVLDAIVSKYADLESLLTKEY PEDKNLKSDKGSIEKIKNYLDSIKLLQNFLKPLKPKKVQDEKDLGFYNDLELYLESLESANSLYNKVRNY LTGKEYSDEKIKLNFKNSTLLDGWDENKETSNLSVIFRDTNNYYLGILDKQNNRIFESIPEIQSGEETIQ KMVYKLLPGANNMLPKVFFSEKGLLKFNPSDEITSLYSEGRFKKGDKFSINSLHTLIDFYKKSLAVHEDW SVFNFKFDETSHYEDISQFYRQVESQGYKITFKPISKKYIDTLVEDGKLYLFQIYNKDFSQNKKGGGKPN LHTIYFKSLFEKENLKDVIVKLNGQAEVFFRKKSIHYDENITRYGHHSELLKGRFSYPILKDKRFTEDKF QFHFPITLNFKSGEIKQFNARVNSYLKHNKDVKIIGIDRGERHLLYLSLIDQDGKILRQESLNLIKNDQN FKAINYQEKLHKKEIERDQARKSWGSIENIKELKEGYLSQVVHTISKLMVEHNAIVVLEDLNFGFKRGRQ KVERQVYQKFEKMLIEKLNFLVFKDKEMDEPGGILKAYQLTDNFVSFEKMGKQTGFVFYVPAWNTSKIDP KTGFVNFLHLNYENVNQAKELIGKFDQIRYNQDRDWFEFQVTTDQFFTKENAPDTRTWIICSTPTKRFYS KRTVNGSVSTIEIDVNQKLKELFNDCNYQDGEDLVDRILEKDSKDFFSKLIAYLRILTSLRQNNGEQGFE ERDFILSPVVGSDGKFFNSLDASSQEPKDADANGAYHIALKGLMNLHVINETDDESLGKPSWKISNKDWL NFVWQRPSLKA SEQ ID NO: 171 ART29_WT MQEHKKISHLTHRNSVQKTIRMQLNPVGKTMDYFQAKQILENDEKLKENYQKIKEIADRFYRNLNEDVLS KTRLDKLKDYTDIYYHCNTDADRKRLDECASELRKEIVKNFKNRDEYNKLFNKKMIEIVLPKHLKNEDEK EVVTSFKNFTTYFTGFFTNRKNMYSDGEESTAIAYRCINENLPKHLDNVKAFEKAISKLSKNAIDDLDTT YSGLCGTNLYDVFTVDYFNFLLPQSGITEYNKIIGGYTTNDGTKVKGINEYINLYNQQVSKRDKIPNLKI LYKQILSESEKVSFIPPKFEDDNELLSAVSEFYANDETFDGMPLKKAIDETKLLFGNLDNPSLNGIYIQN DRSVTNLSNSMFGSWSVIEDLWNKNYDSVNSNSRIKDIQKREDKRKKAYKAEKKLSLSFLQVLISNSEND SETNITGEKNDLFYSQFTPLLDNISRIDILYDKVRNYVTQKPFSTDKIKLNFGNSQLLNGWDRNKEKDCG AVWLCKDEKYYLAIIDKSNNSILENIDFQDCDESDCYEKIIYKLLPGPNKMLPKVFFSEKCKKLLSPSDE ILKIYKSGTFKTGDKFSLDDCHKLIDFYKESFKKYPNWLIYNFKFKKTNEYNDIREFYNDVALQGYNISK MKIPTSFIDKLVDEGKIYLFQLYNKDFSPHSKGTPNLHTLYFKMLFDERNLEDVVYRLNGEAEMFYRPAS IKYDKPTHPKNTPIKNKNTLNDKKTSTFPYDLIKDKRYTKWQFSLHFPITMNFKAPDKAMINDDVRNLLK SCNNNFIIGIDRGERNLLYVSVIDSNGAIIYQHSLNIIGNKFKEKTYETNYREKLATREKERTEQRRNWK AIESIKELKEGYISQAVHVICQLVVKYDAIIVMEKLTDGFKRGRTKFEKQVYQKFEKMLIDKLNYYVDKK LDPDEEGGLLHAYQLTNKLESFDKLGMQSGFIFYVRPDFTSKIDPVTGFVNLLYPQYENIDKAKDMISRF DEIRYNAGEDFFEFDIDYDEFPKTASDYRKKWTICTNGERIEAFRNPANNNEWSYRTIILAEKFKELFDN NSINYRDSDDLKAEILSQTKGKFFEDFFKLLRLTLQMRNSNPETGEDRILSPVKDKNGNFYDSSKYDEKS KLPCDADANGAYNIARKGLWIVEQFKKADNVSTVEPVIHNDQWLKFVQENDMANN SEQ ID NO: 172 ART30_WT MQEHKKISHLTHRNSVQKTIRMQLNPVGKTMDYFQAKQILENDEKLKEDYQKIKEIADRFYRNLNEDVLS KTGLDKLKDYADIYYHCNTDADRKRLNECASELRKEIVKNFKNRDEYNKLFNKKMIEIVLPKHLKNEDEK EVVASFKNFTTYFTGFFTNRKNMYSDGEESTAIAYRCINENLPKHLDNVKVFEKAISKLSKNAIDDLGAT YSGLCGTNLYDVFTVDYFNFLLPQSGITEYNKIIGGYTTSDGTKVKGINEYINLYNQQVSKRDKIPNLKI LYKQILSESEKVSFIPPKFEDDNELLSAVSEFYANDETFDGMPLKKAIDETKLLFGNLDNSSLNGIYIQN DRSVTNLSNSMFGSWSVIEDLWNKNYDSVNSNSRIKDIQKREDKRKKAYKAEKKLSLSFLQVLISNSEND EIREKSIVDYYKTSLMQLTDNLSDKYKEAAPLFSENYDNEKGLKNDDKSISLIKNFLDAIKEIEKFIKPL SETNITGEKNDLFYSQFTPLLDNISRIDILYDKVRNYVTQKPFSTDKIKLNFGNSQLLNGWDKDKEREYG AVLLCKDEKYYLAIIDKSNNSILENIDFQDCNESDYYEKIVYKLLTKINGNLPRVFFSEKRKKLLSPSDE ILKIYKSGTFKKGDKFSLDDCHKLIDFYKESFKKYPNWLIYNFKFKNTNEYNDISEFYNDVASQGYNISK MKIPTTFIDKLVDEGKIYLFQLYNKDFSPHSKGTPNLHTLYFKMLFDERNLEDVVYKLNGEAEMFYRPAS IKYDKPTHPKNTPIKNKNTLNDKKASTFPYDLIKDKRYTKWQFSLHFPITMNFKAPDKAMINDDVRNLLK SCNNNFIIGIDRGERNLLYVSVIDSNGAIIYQHSLNIIGNKFKGKTYETNYREKLATREKDRTEQRRNWK AIESIKELKEGYISQAVHVICQLVVKYDAIIVMEKLTDGFKRGRTKFEKQVYQKFEKMLIDKLNYYVDKK LDPDEEGGLLHAYQLTNKLESFDKLGTQSGFIFYVRPDFTSKIDPVTGFVNLLYPRYENIDKAKDMISRF DDIRYNAGEDFFEFDIDYDKFPKTASDYRKKWTICTNGERIEAFRNPANNNEWSYRTIILAEKFKELFDN NSINYRDSDDLKAEILSQTKGKFFEDFFKLLRLTLQMRNSNPETGEDRILSPVKDKNGNFYDSSKYDEKS KLPCDADANGAYNIARKGLWIVEQFKKADNVSTVEPVIHNDKWLKFVQENDMANN SEQ ID NO: 173 ART31_WT MQERKKISHLTHRNSVKKTIRMQLNPVGKTMDYFQAKQILENDEKLKENYQKIKEIADRFYRNLNEDVLS KTGLDKLKDYAEIYYHCNTDADRKRLNKCASELRKEIVKNFKNRDEYNKLFDKRMIEIVLPKHLKNEDEK EVVASFKNFTTYFTGFFTNRKNMYSDGEESTAIAYRCINENLPKHLDNVKAFEKAISKLSKNAIDDLDAT YSGLCGTNLYDVFTVDYFNFLLPQSGITEYNKIIGGYTTNDGTKVKGINEYINLYNQQVSKRDKIPNLQI LYKQILSESEKVSFIPPKFEDDNELLSAVSEFYANDETFDGMPLKKAIDETKLLFGNLDNSSLNGIYIQN DRSVTNLSNSMFGSWSVIEDLWNKNYDSVNSNSRIKDIQKREDKRKKAYKAEKKLSLSFLQVLISNSEND EIRKKSIVDYYKTSLMQLTDNLSDKYNEAAPLLNENYSNEKGLKNDDKSISLIKNFLDAIKEIEKFIKPL SETNITGEKNDLFYSQFTPLLDNISRIDILYDKVRNYVTQKPFSTDKIKLNFGNYQLLNGWDKDKEREYG AVLLCKDEKYYLAIIDKSNNRILENIDFQDCDESDCYEKIIYKLLPTPNKMLPKVFFAKKHKKLLSPSDE ILKIYKNGTFKKGDKFSLDDCHKLIDFYKESFKKYPKWLIYNFKFKKTNGYNDIREFYNDVALQGYNISK MKIPTSFIDKLVDEGKIYLFQLYNKDFSPHSKGTPNLHTLYFKMLFDERNLEDVVYRLNGEAEMFYRPAS IKYDKPTHPKNTPIKNKNTLNDKRASTFPYDLIKDKRYTKWQFSLHFPITMNFKDPDKAMINDDVRNLLK SCNNNFIIGIDRGERNLLYVSVINSNGAIIYQHSLNIIGNKFKGKTYETNYREKLATREKDRTEQRRNWK AIESIKELKEGYISQAVHVICQLVVKYDAIIVMEKLTDGFKRGRTKFEKQVYQKFEKMLIDKLNYYVDKK LDPDEEGGLLHAYQLTNKLESFDKLGTQSGFIFYVRPDFTSKIDPVTGFVNLLYPRYEKIDKAKDMISRF DDIRYNAGEDFFEFDIDYDKFPKTASDYRKKWTICTNGERIEAFRNPANNNEWSYRTIILAEKFKELFDN NSINYRDSDDLKAEILSQTKGKFFEDFFKLLRLTLQMRNSNPETGEDRILSPVKDKNGNFYDSSKYDEKS KLPCDADANGAYNIARKGLWIVEQFKKADNVSTVEPVIHNDKWLKFVQENDMANN SEQ ID NO: 174 ART32_WT MQERKKISHLTHRNSVLKTIGMQLNPVGKTMDYFQAKQILENDEKLKEDYQKIKEIADRFYRNLNEDVLS KTGLDKLKDYAEIYYHCNTDADRKRLNKCASELRKEIVKNFKNRDEYNKLFDKRMIEIVLPKHLKNEDEK EVVASFKNFTTYFTGFFTNRKNMYSDGEESTAIAYRCINENLPKHLDNVKAFEKAISKLSKNAIDDLDAT YSGLCGTNLYDVFTVDYFNFLLPQSGITEYNKIIGGYTTSDGTKVKGINEYINLYNQQVSKRDKIPNLQI LYKQILSESEKVSFIPPKFEDDNELLSAVSEFYANDETFDEMPLKKAIDETKLLFGNLDNSSLNGIYIQN DRSVTNLSNSMFGSWSVIEDLWNKNYDSVNSNSRIKDIQKREDKRKKAYKAEKKLSLSFLQVLISNSENN EIREKSIVDYYKTSLMQLTDNLSDKYNEVAPLLNENYSNEKGLKNDDKSISLIKNFLDAIKEIEKFIKPL SETNITGEKNDLFYSQFTPLLDNISRIDILYDKVRNYVTQKPFSTDKIKLNFGNYQLLNGWDKDKEREYG AVLLCRDEKYYLAIIDKSNNRILENIDFQDCDESDCYEKIIYKLLPTPNKMLPKVFFAKKHKKLLSPSDE ILKIRKNGTFKKGDKFSLDDCHKLIDFYKESFKKYPNWLIYNFKFKKTNEYNDIREFYNDVALQGYNISK MKIPTSFIDKLVDEGKIYLFQLYNKDFSPHSKGTPNLHTLYFKMLFDERNLEDVVYKLNGEAKMFYRPAS IKYDKPTHPKNTPIKNKNTLNDKKASTFPYDLIKDKRYTKWQFSLHFSITMNFKAPDKAMINDDVRNLLK SCNNNFIIGIDRGERNLLYVSVIDSNGAIIYQHSLNIIGNKFKGKTYETNYREKLATREKERTEQRRNWK AIESIKELKEGYISQAVHVICQLVVKYDAIIVMEKLTDGFKRGRTKFEKQVYQKFEKMLIDKLNYYVDKK LDPDEEGGLLHAYQLTNKLESFDKLGTQSGFIFYVRPDFTSKIDPVTGFVNLLYPRYENIDKAKDMISRF DDIRYNAGEDFFEFDIDYDKFPKTASDYRKKWTICTNGERIEAFRNPANNNEWSYRTIILAEKFKELFDN NSINYRDSDDLKAEILSQTKGKFFEDFFKLLRLTLQMRNSNPETGEDRILSPVKDKNGNFYDSSKYDEKS KLPCDADANGAYNIARKGLWIVEQFKKSDNVSTVEPVIHNDKWLKFVQENDMANN SEQ ID NO: 175 ART33_WT MSININKFSDECRKIDFFTDLYNIQKTLRFSLIPIGATADNFEFKGRLSKEKDLLDSAKRIKEYISKYLA DESDICLSQPVKLKHLDEYYELYITKDRDEQKFKSVEEKLRKELADLLKEILKRLNKKILSDYLPEYLED DEKALEDIANLSSFSTYFNSYYDNCKNMYTDKEQSTAIPYRCINDNLPKFIDNMKAYEKALEELKPSDLE ELRNNFKGVYDTTVDDMFTLDYFNCVLSQSGIDSYNAIIGNDKVKGINEYINLHNQTAEQGHKVPNLKRL YKQIGSQKKTISFLPSKFESDNELLKAVYDFYNTGDAEKNFTALKDTITEFEKIFDNLSEYNLDGVFVRN DISLTNLSQSMFNDWSVFRNLWNDQYDKVNNPEKAKDIDKYNDKRHKVYKKSESFSINQLQELIATTLEE DINSKKITDYFSCDFHRVTTEVENKYQLVKDLLSSDYPKNKNLKTSEEDVALIKDFLDSVKSLESFVKIL TGTGKESGKDELFYGSFTKWFDQLRYIDKLYDKVRNYITEKPYSLDKIKLSFDNPQFLGGWQHSKETDYS AQLFMKDGLYYLGVMDKETKREFKTQYNTPENDSDTMVKIEYNQIPNPGRVIQNLMLVDGKIVKKNGRKN ADGVNAVLEELKNQYLPENINRIRKTESYKTTSNNFNKDDLKAYLEYYIARTKEYYCKYNFVFKSADEYG SFNEFVDDVNNQAYQITKVKVSEKQLLSLVEQGKLYLFKIYNKDFSEYSKGKKNLHTMYFQMLFDDRNLE NLVYKLQGGAEMFYRPASIKKDSEFKHDANVEIIKRTCEDKVNDKDNPTDDEKAKYYSKFDYDIVKNKRF TKDQFSLHLTLAMNCNQPDHYWLNNDVRELLKKSNKNHIIGIDRGERNLIYVTIINSDGVIVDQINFNII ENSYNGKKYKTDYQKKLNQREEDROKARKTWKTIETIKELKDGYISQVVHQICKLIVQYDAIVVMENLNG GFKRGRTKVEKQVYQKFETMLINKLNYYVDKGTDYKECGGLLKAYQLTNKFETFERIGKQSGIIFYVDPY LTSKIDPVTGFANLLYPKYETIPKTHNFISNIDDIRYNQSEDYFEFDIDYDKFPQGSYNYRKKWTICSYG NRIKYYKDSRNKTASVVVDITEKFKETFTNAGIDFVNDNIKEKLLLVNSKELLKSFMDTLKLTVQLRNSE INSDVDYIISPIKDRNGNFYYSENYKKSNNEVPSQPQDGDANGAYNIARKGLMIINKLKKADDVTNNELL KISKKEWLEFAQKGDLGE SEQ ID NO: 176 ART34_WT MKATSIWDNFTRKYSVSKTLRFELRPVGKTEENIVKKEIIDAEWISGKNIPKGTDADRARDYKIVKKLLN QLHILFINQALSSENVKEFEKEDKKSKTFVAWSDLLATHFDNWIQYTRDKSNSTVLKSLEKSKKDLYSKL GKLLNSKANAWKAEFISYHKIKSPDNIKIRLSASNVQILFGNTSDPIQLLKYQIELDNIKFLKDDGSEYT TKELADLLSTFEKFGTYFSGFNQNRANVYDIDGEISTSIAYRLFNQNIEFFFQNIKRWEQFTSSIGHKEA KENLKLVQWDIQSKLKELDMEIVQPRFNLKFEKLLTPQSFIYLLNQEGIDAFNTVLGGIPAEVKAEKKQG VNELINLTRQKLNEDKRKFPSLQIMYKQIMSERKTNFIDQYEDDVEMLKEIQEFSNDWNEKKKRHSASSK EIKESAIAYIQREFHETFDSLEERATVKEDFYLSEKSIQNLSIDIFGGYNTIHNLWYTEVEGMLKSGERP LTRVEKEKLKKQEYISFAQIERLISKHSQQYLDSTPKEANDRSLFKEKWKKTFKNGFKVSEYTNLKLNEL ISEGETFQKIDQETGKETTIKIPGLFESYENAILVESIKNQSLGTNKKESVPSIKEYLDSCLRLSKFIES FLVNSKDLKEDQSLDGCSDFQNTLTQWLNEEFDVFILYNKVRNHVTKKPGNTDKIKINFDNATLLDGWDV DKEAANFGFLLKKADNYYLGIADSSFNQDLKYFNEGERLDEIEKNRKNLEKEESKNISKIDQEKVKKYKE VIDDLKAISNLNKGRYSKAFYKQSKFTTLIPKCTTQLNEVIEHFKKFDTDYRIENKKFAKPFIITKEVFL LNNTVYDTATKKFTLKIGEDEDTKGLKKFQIGYYRATDDKKGYESALRNWITFCIEFTKSYKSCLNYNYS SLKSVSEYKSLDEFYKDLNGIGYTIDFVDISEEYINKKINEGKLYLFQIYNKDFSEKSKGKENLHTTYWK LLFDSKNLEDVVIKLNGQAEVFFRPASIHEKEKITHFKNQEIQNKNPNAVKKTSKFEYDIIKDNRFTKNK FLFHCPITLNFKADGNPYVNNEVQENIAKNPNVNIIGIDRGEKHLLYFTVINQQGQILDAGSLNSIKSEY KDKNQQSVSFETPYHKILDKKESERKEARESWQEIENIKELKAGYLSHVVHQLSNLIVKYNAIVVLEDLN KGFKRGRFKVEKQVYQKFEKSLIEKLNYLVFKDRKESNEPGHHLNAYQLTNKFLSFERLGKQSGVLFYAT ASYTSKVDPVTGFMQNIYDPYHKEKTREFYKNFTKIVYNGNYFEFNYDLNSVKPDSEEKRYRTNWTVCSC VIRSEYDSNSKTQKTYNVNDQLVKLFEDAKIKIENGNDLKSTILEQDDKFIRDLHFYFIAIQKMRVVDSK IEKGEDSNDYIQSPVYPFYCSKEIQPNKKGFYELPSNGDSNGAYNIARKGIVILDKIRLRVQIEKLFEDG TKIDWQKLPNLISKVKDKKLLMTVFEEWAELTHQGEVQQGDLLGKKMSKKGEQFAEFIKGLNVTKEDWEI YTQNEKVVQKQIKTWKLFSNST SEQ ID NO: 177 ART35_WT MKAINEYYKOLGAYCREEGKEKDDFFKRIDGAYCAISHLFFGEHGEIAQSDSDVELIQKLLEAYKGLQRF IKPLLGHGDEADKDNEFDAKLRKVWDELDIITPLYDKVRNWLSRKIYNPEKIKLCFENNGKLLSGWVDSR TKSDNGTQYGGYIFRKKNEIGEYDFYLGISADTKLFRRDAAISYDDGMYERLDYYQLKSKTLLGNSYVGD YGLDSMNLLSAFKNAAVKFQFEKEVVPKDKENVPKYLKRLKLDYAGFYQILMNDDKVVDAYKIMKQHILA TLTSSIRVPAAIELATQKELGIDELIDEIMNLPSKSFGYFPIVTAAIEEANKRENKPLFLFKMSNKDLSY AATASKGLRKGRGTENLHSMYLKALLGMTQSVFDIGSGMVFFRHQTKGLAETTARHKANEFVANKNKLND SLIDLKGNIVMQKSLNILKDDHNAKETDYKGLLTEREGENKEARRNWKKIANIKDLKRGYLSQVVHIISK MMVEYNAIVVLEDLNPGFIRGRQKIERNVYEQFERMLIDKLNFYVDKHKGANETGGLLHALQLTSEFKNF KKSEHQNGCLFYIPAWNTSKIDPATGFVNLFNTKYTNAVEAQEFFSKFDEIRYNEEKDWFEFEFDYDKFT QKAHGTRTKWTLCTYGMRLRSFKNSAKQYNWDSEVVALTEEFKRILGEAGIDIHENLKDAICNLEGKSQK YLEPLMQFMKLLLQLRNSKAGTDEDYILSPVADENGIFYDSRSCGDQLPENADANGAYNIARKGLMLIEQ IKNAEDLNNVKFDISNKAWLNFAQQKPYKNG SEQ ID NO: 178 oligonucleotide-gRNA GUCUAAAAGACCAUAUGAAUUUCUACUUUCGUAGAUCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 179 oligonucleotide-gRNA GUCUAAAGGCCUUAUAAAAUUUCUACUGUCGUAGAUCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 180 oligonucleotide-gRNA GUCUAUACAGACACUUUAAUUCUACUAUUGUAGAUCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 181 oligonucleotide-gRNA GUCUGAAAGACAAGUAUAAUUUCUACUAUUGUAGAUCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 182 oligonucleotide-gRNA GGCUAUAAGCCUUGUAUAAUUUCUACUAUUGUAGAUCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 183 oligonucleotide-qRNA GUUGAAACUGUAAGCGGAAUGUCUACUUGGGUAGAUCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 184 oligonucleotide-qRNA GCAUGAGAACCAUGCAUUUCUAAGGUACUCCAAAACCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 185 oligonucleotide-gRNA GUUGAGUAACCUUAAAUAAUUUCUACUGUUGUAGAUCUGUGGUCCAUGUCUGUUA SEQ ID NO: 186 oligonucleotide-gRNA AUCUACAACAGUAGAAAUUUAAGCUAAGGCUUAGACCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 187 oligonucleotide-gRNA UAAUUUCUACUCUUGUAGAUCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 188 oligonucleotide-gRNA (split) UAAUUUCUACUCUUGUAGAUCUGAUGGUCCAUGUCUGUUA SEQ ID NO: 189 oligonucleotide-cxRNA GTCTATATGACAAAGTAATTTCTACTATGTGTAGAT SEQ ID NO: 190 oligonucleotide-crRNA GTCTAAAGGTACCACCAAATTTCTACTGTTGTAGAT SEQ ID NO: 191 oligonucleotide-crRNA GGTATAAACCATAGTAAAATTTCTGCTATTGCAGAT SEQ ID NO: 192 oligonucleotide-crRNA GTTGAATAACCTTAAATAATTTCTACTGTTGTAGAT SEQ ID NO: 193 oligonucleotide-cxRNA CTCTAAGAGGCATATAAAATTTCTACTGTTGTA SEQ ID NO: 194 oligonucleotide-cxRNA GTTTAATAACCCTATATAATTTCTACTATTGTAGAT SEQ ID NO: 195 oligonucleotide-cxRNA GGCTATAATGCCTAAGTAATTTCTACTATTGTAGAT SEQ ID NO: 196 oligonucleotide-crRNA GTTTAATACACCTATAAGATTTCTACTTTTGTAGAT SEQ ID NO: 197 oligonucleotide-crRNA GGCTATAATGCCTAAGTAATTTCTACTATTGTAGAT SEQ ID NO: 198 oligonucleotide-crRNA GGCTAACAGCCTTTTAAATTTCTACTGTGTGTAGAT SEQ ID NO: 199 oligonucleotide-cxRNA GCTTAGAACCTTTAAATAATTTCTACTATTGTAGAT SEQ ID NO: 200 oligonucleotide-crRNA GGCTAGTATGCTTCAATAATTTCTACTATTGTAGAT SEQ ID NO: 201 oligonucleotide-crRNA GGCTAGTATGCTTCAATAATTTCTACTATTGTAGAT SEQ ID NO: 202 oligonucleotide-crRNA GGCTAGTATGCTTCAATAATTTCTACTATTGTAGAT SEQ ID NO: 203 oligonucleotide-cxRNA GTCTAACGACCTTTTAAATTTCTACTGTTTGTAGAT SEQ ID NO: 204 oligonucleotide-cxRNA GTCTAACGACCTTTTAAATTTCTACTGTTTGTAGAT SEQ ID NO: 205 oligonucleotide-crRNA GTCTAACGACCTTTTAAATTTCTACTGTTTGTAGAT SEQ ID NO: 206 oligonucleotide-cIRNA GGCTACATAAAGCCTATAATTTCTACTATGTGTAGAT SEQ ID NO: 207 oligonucleotide-cxRNA GTCTATATGACTAAGTAATTTCTACTATGTGTAGAT SEQ ID NO: 208 oligonucleotide-cxRNA GTCTATATGACTAAGTAATTTCTACTATGTGTAGAT SEQ ID NO: 209 oligonucleotide-orRNA GTCTATATGACTAAGTAATTTCTACTATGTGTAGAT SEQ ID NO: 210 oligonucleotide-crRNA GTCTAACGACCTTTTAAATTTCTACTGTTTGTAGAT SEQ ID NO: 211 oligonucleotide-CTRNA GTTGAATAACCTTAAATAATTTCTACTGTTGTAGAT SEQ ID NO: 212 oligonucleotide-CIRNA GTCTAACGACCTTTAAAATTTCTACTATTTGTAGAT SEQ ID NO: 213 oligonucleotide-cxRNA GTTAAGTAACCTATAGTAATTTCTACTGTTGTAGAT SEQ ID NO: 214 oligonucleotide-crRNA GTTAAGTAACCTATAGTAATTTCTACTGTTGTAGAT SEQ ID NO: 215 oligonucleotide-crRNA GTTTAATAACCCTATATAATTTCTACTATTGTAGAT SEQ ID NO: 216 oligonucleotide-CIRNA CTCTAAGAGAAGGTATAAATTTCTACTGTTGTAGAT SEQ ID NO: 217 oligonucleotide-cxRNA GTTTAATAACCCTATATAATTTCTACTATTGTAGAT SEQ ID NO: 218 oligonucleotide-cxRNA GTTTAATAACCCTATATAATTTCTACTATTGTAGAT SEQ ID NO: 219 oligonucleotide-crRNA GTTTAATAACCCTATATAATTTCTACTATTGTAGAT SEQ ID NO: 220 oligonucleotide-crRNA GTTTAATAACCCTATATAATTTCTACTATTGTAGATA SEQ ID NO: 221 oligonucleotide-crRNA GTTTAATCAACCCTTAGAATTTCTACTATTGTAGAT SEQ ID NO: 222 oligonucleotide-cxRNA CTCTAAGAGAGGATATAAATTTCTACTGTTGTAGAT SEQ ID NO: 223 oligonucleotide-cxRNA GGCTATAATGCCTAAGTAATTTCTACTATTGTAGAT SEQ ID NO: 224-peptide motif YLFQIYNKDF SEQ ID NO: 225 ART11_L679F_WT ATGTATTATCAGGGTTTAACAAAGCTATATCCAATTAGTAAAACTATTAGAAACGAATTAATTCCTGTAGGAAAGAC TTTAGAACATATTAGAATGAATAATATTCTTGAGGCTGATATTCAGAGAAAATCAGATTATGAACGTGTAAAGAAGC TAATGGATGACTATCATAAGCAATTAATAAATGAGTCTTTGCAAGATGTCCATTTGTCTTATGTTGAGGAGGCAGCT GATCTATATCTAAATGCTTCTAAGGATAAAGATATTGTAGATAAGTTTAGTAAGTGTCAGGATAAATTGCGAAAAGA GATAGTTAATCTCTTGAAGAGTCATGAAAACTTTCCAAAGATAGGAAACAAGGAAATAATAAAATTACTACAGAGTC TTTCTGATACTGAAAAAGACTATAACGCGTTGGATTCATTTAGCAAGTTTTATACATATTTTACTAGCTACAATGAG GTTAGAAAGAATTTGTATTCCGATGAAGAAAAATCATCCACAGCGGCATATCGATTGATAAATGAAAATTTGCCTAA ATTTCTAGATAATATTAAGGCTTATTCTATTGCTAAATCTGCAGGTGTGCGAGCTAAAGAACTGACCGAAGAAGAAC AGGATTGTCTTTTTATGACTGAAACTTTTGAAAGGACACTTACTCAGGATGGAATTGATAATTATAACGAATTGATT GGAAAGCTTAATTTTGCGATTAATCTATATAATCAGCAAAATAATAAACTCAAGGGATTTCGTAAAGTACCTAAGAT GAAAGAACTGTATAAACAGATTTTGTCGGAAAGAGAGGCATCATTTGTTGATGAATTTGTTGATGATGAAGCATTGC TAACTAACGTAGAGTCTTTTTCTGCACATATTAAAGAGTTTTTGGAATCGGATTCTCTTTCAAGATTTGCGGAAGTC CTTGAAGAATCTGGTGGGGAAATGGTTTATATAAAAAATGATACTTCAAAGACAACATTTTCAAATATAGTATTTGG CTCTTGGAACGTAATTGATGAAAGATTGGCAGAGGAATATGATTCTGCTAATTCTAAGAAAAAGAAGGACGAAAAAT ATTACGATAAGCGTCATAAAGAACTGAAAAAGAACAAGAGCTATTCTGTGGAGAAGATAGTTTCATTATCAACGGAA ACAGAGGATGTGATTGGAAAATATATAGAGAAGCTTCAAGCGGACATTATTGCTATAAAAGAGACGCGAGAAGTTTT TGAGAAAGTTGTTCTTAAGGAGCATGATAAGAATAAATCTCTTAGAAAGAATACTAAAGCCATCGAGGCAATTAAAT CATTTTTAGATACAATAAAAGATTTTGAGCGAGATATAAAACTTATTAGCGGTAGCGAGCATGAGATGGAGAAGAAT CTTGCCGTTTATGCAGAGCAAGAGAATATTTTATCTTCAATTAGAAATGTGGATTCTCTATACAATATGTCAAGAAA TTATCTCACCCAAAAGCCTTTTTCAACAGAAAAGTTTAAGTTGAATTTTAATAGGGCAACATTATTAAATGGGTGGG ATAAAAATAAAGAAACTGATAATCTAGGTATTCTTTTGGTAAAAGAAGGAAAATATTACTTAGGAATTATGAATACT AAAGCTAATAAAAGTTTTGTAAATCCACCTAAGCCGAAGACAGACAATGTATATCATAAAGTGAATTATAAGCTATT ACCAGGACCAAATAAGATGTTGCCTAAGGTCTTTTTTGCAAAGTCAAATCTTGAATATTACAAACCATCAGAAGACT TGCTAGCAAAATATCAAGCGGGTACACATAAGAAAGGAGAGAATTTTTCTTTAGAAGATTGCCATTCATTGATTTCT TTCTTTAAAGACTCTCTAGAAAAGCATCCAGACTGGTCAGAATTTGGATTTAAGTTTTCTGATACAAAAAAATATGA TGATTTGAGTGGATTTTATAGAGAGGTAGAGAAGCAAGGATATAAGATAACATATACGGATATTGATGTAGAGTATA TTGATAGTTTGGTTGAAAAAGATGAGTTGTATtTTTTCCAAATCTACAATAAGGATTTCTCGCCATATAGTAAGGGG AATTATAATCTCCACACGCTATATCTGACGATGTTATTTGATGAGCGTAATTTACGTAATGTGGTTTATAAATTAAA TGGTGAGGCTGAAGTTTTTTATAGACCTGCTTCAATTGGAAAGGATGAACTAATTATTCATAAATCTGGAGAGGAAA TAAAGAATAAGAATCCAAAGAGGGCTATTGATAAACCAACAAGTACATTCGAATATGATATCGTCAAAGATCGAAGA TATACTAAGGATAAATTTATGTTACATATTCCAGTAACTATGAATTTTGGCGTGGATGAAACTAGAAGATTCAATGA GGTCGTTAATGATGCTATAAGGGGAGATGATAAAGTTAGAGTCATTGGAATTGATAGAGGCGAGAGAAATTTATTAT ATGTAGTAGTTGTTGATTCTGATGGAACTATTTTGGAGCAGATTTCTCTTAATTCTATTATTAATAATGAGTATTCG ATAGAAACAGATTATCACAAATTGCTGGATGAGAAAGAAGGGGATAGAGACAGAGCACGCAAAAATTGGACTACTAT AGAAAATATTAAAGAACTTAAAGAGGGGTATCTAAGTCAGGTAGTTAATGTTATAGCAAAATTGGTTTTGAAATATG ATGCTATTATCTGCCTTGAAGATTTGAATTTTGGATTTAAGCGTGGACGTCAAAAAGTTGAAAAACAGGTATATCAG AAATTCGAAAAAATGCTTATTGATAAATTGAATTATTTAGTTATTGATAAGAGTAGAAGCCAAGAGAATCCTGAAGA AGTTGGACATGTCTTGAATGCGTTACAGTTAACTTCAAAATTTACTAGTTTTAAGGAATTAGGTAAACAGACAGGTA TTATTTATTACGTTCCTGCGTATTTAACTAGTAAAATTGATCCGACAACAGGTTTCGCAAATCTCTTTTACGTAAAA TATGAGAGTGTTGAAAAGTCCAAAGATTTCTTTAATAGATTTGATAGCATTTGTTTTAACAAAGTAGCAGGTTATTT TGAGTTTAGCTTTGATTATAAAAACTTTACTGATAGAGCCTGTGGTATGAGAAGTAAATGGAAAGTATGTACCAATG GTGAACGAATCATTAAATATAGAAATGAAGAAAAGAACAGTTCTTTTGATGATAAGGTGATAGTTTTAACGGAAGAA TTTAAGAAGTTGTTCAATGAGTATGGCATTGCTTTTAATGATTGTATGGACCTGACTGATGCAATAAATGCTATTGA TGATGCTAGTTTCTTCAGAAAGTTGACTAAATTGTTCCAACAGACATTGCAGATGCGAAATAGTTCGGCTGATGGTT CCAGAGATTATATTATCTCGCCAGTTGAGAATGATAACGGGGAGTTTTTTAACTCCGAAAAATGCGATAAATCAAAA CCAAAAGATGCTGATGCTAATGGAGCATTTAATATTGCCAGAAAGGGATTATGGGTGTTAGAACAACTTTATAATTC ATCATCAGGAGAAAAGCTTAATTTAGCAATGACAAATGCTGAATGGTTAGAGTATGCACAGCAACATACGATTTAA SEQ ID NO: 226 ART11_L679F_Optimized1 [[NT]] ATGTATTACCAGGGGTTGACCAAATTGTACCCGATCAGCAAGACAATCCGTAACGAGCTTATCCCTGTTGGAAAAAC GTTGGAGCACATTCGCATGAATAATATTTTAGAGGCCGACATCCAGCGCAAATCGGATTATGAGCGTGTCAAGAAGT TGATGGATGACTATCACAAACAGTTGATCAACGAGTCGTTGCAAGATGTTCACTTGAGTTACGTCGAAGAAGCCGCC GATCTGTACTTAAATGCTTCCAAAGACAAAGATATTGTGGATAAGTTTTCGAAGTGTCAAGACAAGCTTCGCAAGGA GATTGTGAACCTTTTAAAGAGCCACGAGAACTTTCCGAAGATCGGAAATAAGGAGATCATTAAGTTACTTCAGTCAT TGAGTGACACTGAAAAAGACTACAACGCTCTTGACTCTTTCTCAAAGTTTTACACGTATTTTACTTCATATAATGAG GTGCGTAAAAACTTGTATTCCGACGAGGAAAAAAGCTCAACAGCCGCCTACCGTCTTATTAACGAGAACTTACCTAA GTTCCTGGATAATATTAAGGCTTACAGCATTGCCAAGAGCGCAGGGGTGCGTGCGAAAGAACTGACGGAGGAGGAGC AAGATTGTTTGTTTATGACAGAGACATTCGAGCGCACATTAACTCAGGACGGGATTGATAATTACAACGAACTGATT GGCAAGCTTAATTTTGCGATCAACTTATATAACCAACAAAATAACAAACTGAAGGGCTTCCGTAAGGTACCGAAAAT GAAGGAACTTTATAAACAAATTCTGAGTGAACGTGAAGCAAGTTTTGTAGACGAATTTGTAGATGACGAGGCTTTAC TGACCAACGTTGAAAGCTTCAGCGCACACATTAAAGAATTTTTAGAGAGTGATTCGTTATCTCGCTTTGCCGAGGTA TTAGAAGAGTCGGGGGGAGAAATGGTATACATTAAGAACGACACCTCGAAGACAACCTTCAGTAACATCGTTTTCGG ATCATGGAATGTCATCGACGAACGCTTGGCCGAGGAATACGACAGCGCAAACTCCAAAAAGAAGAAAGATGAAAAGT ATTATGATAAACGCCACAAAGAGCTGAAAAAGAATAAATCCTATTCAGTGGAAAAGATCGTCAGCTTAAGTACAGAG ACTGAGGACGTGATTGGTAAATATATTGAAAAACTTCAGGCTGATATCATCGCAATCAAGGAAACACGTGAAGTCTT TGAAAAGGTAGTTCTGAAGGAACACGATAAAAACAAGAGCCTGCGTAAGAATACCAAAGCCATTGAGGCAATCAAAT CTTTTTTAGATACTATCAAAGATTTTGAGCGTGATATCAAACTGATTTCAGGGTCTGAGCACGAAATGGAGAAAAAC CTTGCTGTGTACGCAGAGCAAGAAAACATCCTGTCGTCGATTCGTAATGTAGATTCTTTGTACAATATGTCCCGTAA CTACTTAACGCAGAAGCCTTTTAGTACCGAAAAATTTAAACTTAACTTCAATCGCGCCACCTTATTAAATGGTTGGG ACAAAAATAAAGAAACTGATAACTTAGGCATCTTGCTGGTGAAGGAAGGAAAATATTATCTTGGGATCATGAATACA AAGGCAAACAAGTCATTCGTGAATCCCCCGAAGCCGAAAACAGACAATGTATACCACAAAGTAAACTACAAACTTCT TCCAGGCCCAAATAAAATGTTACCGAAGGTCTTCTTCGCTAAGTCAAACCTGGAATATTATAAACCTTCGGAAGATT TATTGGCAAAATATCAGGCCGGGACGCACAAAAAAGGGGAGAATTTCTCCCTTGAAGACTGTCACTCTCTTATCTCG TTTTTCAAAGACTCGTTGGAGAAGCACCCTGACTGGAGTGAATTCGGGTTTAAGTTTAGCGATACTAAGAAGTATGA TGACCTGAGCGGTTTCTACCGCGAGGTGGAGAAGCAAGGATATAAAATTACCTATACCGACATTGATGTTGAGTACA TCGATAGTCTTGTCGAAAAGGATGAGCTTTACTTcTTTCAAATCTACAATAAAGACTTTTCACCTTATAGTAAAGGT AACTACAATCTGCACACACTGTACCTGACGATGCTGTTCGATGAGCGTAATTTGCGTAACGTCGTCTATAAATTGAA TGGTGAGGCGGAGGTTTTCTACCGCCCAGCGTCTATCGGCAAGGACGAATTGATTATCCACAAGAGTGGAGAGGAAA TTAAGAACAAGAATCCTAAACGTGCTATTGACAAGCCAACCTCCACGTTTGAGTACGATATTGTTAAAGACCGCCGC TACACTAAGGATAAGTTTATGCTGCACATTCCAGTGACAATGAACTTTGGCGTTGATGAGACCCGCCGTTTTAACGA GGTCGTCAACGATGCAATTCGTGGGGACGACAAGGTACGTGTCATTGGTATTGACCGTGGCGAGCGCAATCTGCTGT ACGTCGTCGTGGTTGACTCTGACGGGACGATCCTTGAGCAAATTAGTCTGAATTCCATTATTAATAACGAATACAGC ATTGAAACCGACTACCATAAGCTTTTGGACGAAAAGGAAGGCGACCGTGACCGCGCTCGTAAAAATTGGACTACAAT TGAGAATATCAAAGAATTAAAAGAAGGCTACCTTAGCCAAGTTGTAAACGTGATCGCAAAATTGGTATTGAAATACG ATGCCATCATCTGTTTGGAAGATTTAAACTTTGGGTTTAAACGTGGCCGCCAAAAAGTGGAGAAGCAGGTATATCAA AAGTTTGAAAAGATGTTAATTGATAAACTTAATTATTTGGTAATTGACAAATCCCGTAGCCAAGAAAATCCGGAAGA GGTGGGTCATGTCCTGAACGCCCTTCAATTAACTAGTAAGTTCACTAGCTTTAAGGAGTTGGGCAAACAAACTGGCA TTATCTATTACGTCCCGGCCTATCTTACCAGCAAGATTGACCCTACCACTGGCTTCGCCAATTTATTTTACGTCAAG TATGAAAGTGTAGAGAAGTCTAAAGACTTTTTTAATCGTTTTGATTCGATCTGTTTCAACAAGGTAGCCGGATACTT TGAGTTTAGTTTCGACTACAAAAATTTCACAGACCGCGCCTGCGGCATGCGTAGCAAGTGGAAAGTCTGTACGAATG GAGAACGCATCATTAAATATCGCAACGAGGAAAAGAATTCGTCATTCGATGATAAGGTCATCGTGCTGACCGAAGAA TTTAAGAAGCTTTTTAACGAATATGGTATCGCGTTCAATGACTGTATGGATTTAACAGACGCTATCAATGCGATTGA TGATGCTAGCTTTTTCCGCAAGCTGACAAAGTTATTTCAACAAACATTGCAAATGCGCAACTCCTCCGCTGACGGCT CTCGCGATTATATTATTTCTCCCGTAGAAAACGATAATGGAGAGTTCTTTAATAGCGAGAAGTGTGACAAATCGAAA CCAAAGGACGCCGATGCTAACGGTGCGTTCAATATTGCACGCAAGGGACTTTGGGTCTTAGAGCAGTTGTATAACAG CTCCAGCGGTGAAAAACTTAATCTGGCCATGACCAATGCTGAATGGTTGGAGTACGCGCAGCAGCACACCATCTAA SEQ ID NO: 227 ART11_L679F_Optimized2 ATGTACTATCAAGGTCTGACTAAGTIGTATCCTATTTCAAAGACTATCCGTAACGAGTTAATCCCGGTAGGCAAAAC GCTAGAGCACATTAGAATGAACAACATCTTGGAGGCTGATATACAGAGAAAAAGTGACTATGAAAGGGTGAAGAAGT TGATGGATGACTATCATAAACAGTTAATTAATGAGAGCCTGCAAGATGTCCACCTGTCTTACGTTGAAGAGGCCGCA GACTTGTACCTAAACGCCAGCAAAGATAAGGACATAGTAGATAAATTTTCTAAATGTCAAGATAAGTTAAGAAAAGA GATTGTCAATTTGCTAAAAAGCCACGAAAATTTTCCGAAAATCGGTAACAAGGAGATTATCAAACTTTTGCAGTCTT TGAGTGATACTGAGAAGGATTATAATGCCCTAGATTOTTTTTCCAAATTCTACACGTACTTTACGTCATATAACGAA GTAAGAAAAAATTTATATTCCGACGAAGAGAAGAGTTCCACAGOGGCCTACAGACTAATAAACGAGAACCTACCAAA GTTTOTTGACAATATAAAGGOTTACTCTATAGCTAAGTCAGCTGGCGTTCGTGCGAAGGAACTAACAGAAGAGGAGC AGGACTGTCTATTTATGACCGAAACATTTGAGAGAACTITGACGCAGGACGGAATAGATAATTACAATGAGCTTAIC GGGAAGCTGAACTTCGCCATTAATCTATATAACCAACAGAATAACAAGTIGAAGGGGTTCAGGAAGGTGCCCAAGAT GAAGGAACTGTATAAACAGATOTTATCCGAGAGAGAGGCATCATTTGTAGACGAGTTCGTCGATGATGAGGCTCTTC TAACCAACGTCGAAAGCTTTAGTGCGCACATCAAGGAATTCCTGGAGAGTGATAGTCTATCAAGGTTCGCGGAAGTT TTAGAGGAATCCGGAGGCGAGATGGTGTATATCAAAAATGATACGTCTAAGACAACATTCTCAAACATCGTGTICGG GTCTTGGAATGTGATTGACGAAAGACTAGCAGAAGAATATGATTCTGCTAACAGCAAGAAGAAAAAGGACGAAAAGT ATTACGATAAGAGGCATAAAGAGCTAAAGAAGAACAAAAGCTATAGCGTCGAGAAGATAGICICTTTAAGCACAGAA ACGGAAGATGTGATAGGGAAATACATCGAAAAATTACAGGCTGACATAATTGCAATTAAAGAGACGAGGGAGGTATT CGAAAAGGTAGTITTAAAAGAACATGATAAAAATAAGTCTCTGCGTAAAAATACCAAGGCGATCGAAGCCATCAAGA CTTGCTGTATAIGCGGAACAGGAAAATATTTTATCTTCTATTCGTAATGTAGATTCACTGIATAACATGTCTAGAAA TTACCTTACACAAAAGCCGTTCTCTACTGAGAAATTTAAATTAAACTTCAACCGTGCGACACTGCTTAATGGTTGGG ATAAAAACAAGGAAACAGACAATCTAGGAATTOTTCTGGTAAAAGAAGGTAAATATTACCTAGGGATCATGAATACG AAGGCTAACAAATCTTTTGTCAACCCCCCCAAACCTAAGACTGACAATGTATACCATAAAGTGAATTATAAACTGCT TCCAGGICCAAATAAAATGTTACCTAAGGTCTTTTTTGCAAAGTCAAATCTGGAGTACTACAAACCATCTGAAGATC TGCTGGCAAAGTACCAGGCCGGAACACATAAAAAGGGAGAAAACTTTICCTTAGAAGATTGTCACTCCCTGATATCA TTCTTTAAAGACAGCCTGGAGAAGCATCCCGACTGGTCTGAGTTTGGCTTCAAGTTCAGTGACACAAAAAAATACGA CGACTTAAGCGGATTTTACAGGGAAGTCGAAAAACAGGGTTATAAGATAACTTATACAGATATTGACGTAGAGTACA TAGACAGCCTTGTTGAAAAAGATGAATTGTACTTCTTCCAAATTTATAACAAAGACTTCTCACCCTACAGCAAGGGT AACTACAACCTTCATACCTIGTACCTTACCATGCTATTTGATGAAAGGAATTTAAGAAACGTTGTTTATAAGTTAAA CGGCGAAGCAGAGGTCTTTTACCGTCCTGCATCCATAGGGAAGGACGAATTAATAATCCATAAAAGTGGAGAGGAGA TTAAGAATAAAAACCCTAAGAGAGCAATTGACAAACCGACATCAACGTTTGAGTACGATANCGTCAAAGACCGTCGT TACACTAAGGACAAGTTCATGTTACATATTCCTGTGACGATGAACTTTGGCGTGGACGAAACACGTAGGTTCAACGA GGTAGTAAACGACGCCATAAGAGGCGACGACAAAGTGAGAGTTATAGGCATAGATAGGGGTGAAAGAAATCTTCTTT ATGTTGTAGTAGTGGACTCAGACGGAACTATTCTAGAACAAATTAGTTTAAATTCCATCATCAACAACGAATACAGT ATTGAAACCGACTACCACAAATTGOTAGATGAGAAAGAGGGGGATAGAGACCGTGCCAGAAAAAACTGGACCACGAT CGAGAACATTAAAGAATTAAAGGAAGGATATTTAAGTCAGGTCGTCAACGTGATCGCTAAACTAGTCCTTAAGTATG ACGCGATCATATGTCTGGAAGACCTTAACTTTGGTTTTAAGAGAGGAAGGCAGAAGGTGGAAAAACAAGTGTATCAG AAGTTTGAGAAAATGTTGATAGATAAGTTAAACTACCTGGTTATTGATAAGTCCCGTAGTCAGGAGAACCCGGAAGA GGTGGGGCATGTCCTGAACGCGCTACAACTTACGTCTAAGTTTACGAGCTTTAAAGAACTAGGCAAGCAGACGGGAA TAATOTACTATGTACCCGCGTATTTAACATCCAAAATTGATCCAACGACAGGGTTCGCTAACCTTTTCTACGTTAAG TACGAATCOGTTGAGAAATCTAAAGATTTCTTTAACAGGTTTGACAGTATATGCTTTAACAAGGTAGCAGGCTAITT TGAATTCTCCTTCGATTACAAAAATTTCACCGACCGTGCATGTGGTATGCGTTCTAAGTGGAAAGTCTGTACTAATG GGGAGAGGATCATTAAGTACCGTAACGAAGAAAAGAACAGTAGTTTCGACGATAAAGTGATAGTCCTGACCGAGGAG TTTAAGAAGCTGTTCAACGAATACGGCATCGCCTTTAACGACTGCATGGACTTAACGGACGCAATAAACGCTATAGA TGACGCATCCTTTTTCCGTAAGTTAACCAAGTTATTICAACAGACTCTTCAAATGCGTAATAGTTCCGCGGACGGGT CCCGTGATTATATCATTTCACCAGTAGAGAACGATAATGGGGAGTTTTTTAACAGCGAGAAGTGCGATAAAAGTAAA CCGAAAGATGCAGATGCCAACGGCGCATTTAACATTGCGCGTAAGGGGCTGTGGGTTTTAGAACAGTTGTACAACAG TAGTAGTGGAGAGAAGOTTAACCTAGCTATGACGAATGCAGAATGGCTAGAGTACGCCCAACAGCATACGATCTAA SEQ ID NO: 228 ART11_L679F_Optimized3 [[NT]] ATGTATTACCAGGGTCTGACCAAGCTCTATCCCATATCAAAAACGATCCGGAATGAGTTGATCCCCGTGGGCAAAAC CCTCGAACATATTAGAATGAATAATATACTCGAGGCAGACATTCAAAGGAAGAGCGATTATGAAAGAGTTAAAAAAC TCATGGATGACTACCATAAGCAACTTATAAACGAGAGTTTGCAGGACGTGCACCTCTCATATGTCGAAGAAGCGGCG GACCTCTACCTCAACGOTAGCAAAGATAAGGACATTGTTGATAAGTTCTCTAAATGTCAAGACAAGOTCAGAAAAGA AATCGTAAATCTTCTTAAAAGCCACGAAAATTTTCCTAAAATAGGCAACAAGGAAATTATTAAATTGCTCCAAAGCT TGTCCGACACGGAAAAAGATTATAACGCCCTGGACTCATTCTCTAAATTCTACACATACTTCACCTCTTATAACGAG GTTCGCAAGAACCTCTATAGTGATGAGGAGAAGTCOTCAACGGCGGCTTACCGCCTGATAAACGAGAATCTTCCCAA ATTTCTCGATAACATAAAGGCGTATTCCATCGCGAAAAGTGCAGGCGTTAGAGCTAAAGAGCTCACTGAAGAAGAAC AAGATTGCCTTTTCATGACCGAGACGTTTGAAAGAACGCTCACTCAGGACGGGATTGATAATTATAACGAACTTATC GGGAAGCTGAACTTCGCAATTAATCTTTATAATCAACAAAACAATAAGCTGAAGGGGTTTAGGAAAGTACCAAAGAT GAAGGAACTGTACAAGCAGATCCTCAGCGAAAGGGAAGCTAGTTTTGTGGACGAATTTGTTGATGACGAAGCCCTTC TGACCAACGTAGAATOTTTCAGCGCCCATATTAAAGAATTCCTCGAATCTGACAGCCTCTCTCGATTTGCGGAGGTC CTTGAAGAGTCCGGTGGCGAAATGGTGTACATAAAGAACGACACGTCTAAGACAACATTTTCTAATATTGTGTTCGG TTCATGGAACGTCATTGACGAAAGGTTGGCAGAAGAATATGACTCAGCAAACTCCAAAAAGAAGAAGGACGAGAAAT ACTATGATAAAAGGCATAAGGAGCIGAAGAAAAACAAATOTTATTCAGTAGAGAAGATAGTCTCACTGTCAACGGAG ACCGAGGACGTTATAGGAAAGTATATTGAAAAGCTCCAGGCCGACATAATTGCGATAAAAGAGACTAGAGAGGTGTT TGAGAAGGTCGTCCTCAAAGAGCATGACAAGAATAAATCTCTCCGAAAGAATACGAAAGCAATAGAGGCGATTAAGT CCTTCCTCGACACAATCAAGGATTICGAGCGAGACATCAAGCTCATTICAGGGAGTGAGCATGAGATGGAAAAAAAT CTCGCAGTTTATGCGGAGCAAGAGAACATATTGTCTAGTATCCGCAATGTCGACAGTCTCTATAACATGAGCAGGAA TTATCTCACACAGAAACCATTITCAACTGAGAAGTICAAATTGAACTTCAACCGGGCAACCTTGTTGAACGGTTGGG ACAAAAACAAAGAGACTGACAACCTGGGGATTTTGCTGGTGAAGGAAGGCAAGTACTATCIGGGGATTATGAATACC AAAGCTAACAAAAGCTTCGTCAACCCTCCGAAGCCGAAAACGGATAATGTCTATCATAAGGTGAATTATAAGCTCCT GCCGGGCCCAAATAAGATGCTTCCCAAAGTATTCTTCGCTAAGTCCAATTTGGAGTATTACAAACCAAGCGAGGACC TOTTGGCAAAATACCAAGCGGGAACGCACAAGAAGGGTGAGAATTTTTCACTTGAAGATTGCCATTCCCTGATTAGT TTCTTCAAGGACTCCCTTGAAAAGCACCCAGACTGGAGTGAGTTCGGTTTCAAGTTTTCTGATACGAAAAAATACGA TGACTTGAGOGGTTTCTACCGGGAGGTCGAAAAGCAAGGTTATAAAATTACATACACAGACATAGATGTGGAGTACA TCGACAGTCTGGTTGAGAAAGACGAGTTGTACTTCTTCCAGATCTATAATAAAGATTTTAGTCCCTACTCTAAGGGA AACTACAATCTTCATACACTTTATCTGACCATGCTGTTTGACGAACGGAACCTTCGCAACGTCGTCTACAAACTGAA CGGAGAAGCCGAAGTATTCTATAGACCOGCTAGCATTGGCAAAGACGAGCTGATAATCCATAAATCAGGGGAGGAAA TTAAAAACAAGAACCCGAAGCGCGCTATCGACAAACCCACAAGCACATTTGAGTACGACATCGTAAAGGATCGAAGG TATACAAAAGATAAATTTATGCTGCACATTCCCGTAACGATGAATTTTGGGGTTGACGAAACGCGGAGATTCAATGA AGTGGTGAATGACGCAATAAGGGGTGACGATAAGGTTCGCGTGATCGGTATAGATAGGGGCGAGCGAAACCTCCTCT ATGTCGTCGTCGTGGACTCTGATGGTACTATTTTGGAGCAAATCTCTCTTAACAGTATTATCAATAACGAATACTCT ATTGAAACGGACTACCATAAGCTGCTGGATGAAAAAGAGGGTGATCGAGATCGGGCACGGAAAAATTGGACTACAAT TGAGAATATCAAAGAGTTGAAGGAAGGGTATCTGICTCAGGTTGTGAATGTTATTGCAAAGCTCGTGCTGAAGTACG ATGCCATTATTIGTCTTGAGGATTTGAACTTTGGTTTTAAGAGGGGAAGGCAGAAAGTAGAGAAGCAAGTCTACCAG AAGTTTGAGAAGATGTTGATCGACAAATTGAATTACCTTGTTATAGATAAATCCAGGAGTCAGGAGAACCCGGAAGA GGTGGGCCATGTCCTCAACGCTTTGCAACTCACGTCCAAGTTCACGTCCTTTAAAGAACTGGGCAAGCAGACTGGAA TTATOTACTACGTGCCGGCCTACCTCACTAGCAAGATCGACCCTACTACCGGCTTCGCAAACCTCTTCTACGTAAAA TACGAGTCAGTAGAAAAATCCAAGGATTTCTTCAATCGCTTTGATAGCATATGTTTTAATAAGGTTGCCGGATACTT CGAATTCAGTTTCGATTATAAGAACTTCACCGATOGGGCGTGCGGCATGAGGTCCAAGTGGAAGGTATGTACAAATG TTTAAAAAATIGTTTAACGAATATGGAATTGCCTTCAACGACTGCATGGACCTTACGGATGCAATCAACGCGATCGA TGACGCGTCCTTTTTTAGAAAATTGACCAAGOTGTTTCAACAGACTCTCCAAATGAGGAACTCATCAGCTGATGGAA CCCAAAGACGCCGATGCAAATGGAGCGTTCAACATAGCCCGGAAGGGATTGTGGGTACTTGAACAGCTGTATAATTC TTCTAGCGGCGAAAAGCTCAACCTTGCGATGACAAATGCCGAGTGGCTTGAATATGCGCAGCAACACACCATATAA SEQ ID NO: 229 ART11_L679F MYYQGLTKLYPISKTIRNELIPVGKTLEHIRMNNILEADIQRKSDYERVKKLMDDYHKQLINESLQDVHLSYVEEAA DLYLNASKDKDIVDKFSKCQDKLRKEIVNLLKSHENFPKIGNKEIIKLLQSLSDTEKDYNALDSFSKFYTYFTSYNE VRKNLYSDEEKSSTAAYRLINENLPKFLDNIKAYSIAKSAGVRAKELTEEEQDCLFMTETFERTLTQDGIDNYNELI GKLNFAINLYNQQNNKLKGFRKVPKMKELYKQILSEREASFVDEFVDDEALLTNVESFSAHIKEFLESDSLSRFAEV LEESGGEMVYIKNDTSKTTFSNIVFGSWNVIDERLAEEYDSANSKKKKDEKYYDKRHKELKKNKSYSVEKIVSLSTE TEDVIGKYIEKLOADIIAIKETREVFEKVVLKEHDKNKSLRKNTKAIEAIKSFLDTIKDFERDIKLISGSEHEMEKN LAVYAEQENILSSIRNVDSLYNMSRNYLTQKPFSTEKFKLNFNRATLLNGWDKNKETDNLGILLVKEGKYYLGIMNT KANKSFVNPPKPKTDNVYHKVNYKLLPGPNKMLPKVFFAKSNLEYYKPSEDLLAKYQAGTHKKGENFSLEDCHSLIS FFKDSLEKHPDWSEFGFKFSDTKKYDDLSGFYREVEKQGYKITYTDIDVEYIDSLVEKDELYFFQIYNKDFSPYSKG NYNLHTLYLTMLFDERNLRNVVYKLNGEAEVFYRPASIGKDELIIHKSGEEIKNKNPKRAIDKPTSTFEYDIVKDRR YTKDKFMLHIPVTMNFGVDETRRFNEVVNDAIRGDDKVRVIGIDRGERNLLYVVVVDSDGTILEQISLNSIINNEYS IETDYHKLLDEKEGDRDRARKNWTTIENIKELKEGYLSQVVNVIAKLVLKYDAIICLEDLNFGFKRGRQKVEKQVYQ KFEKMLIDKLNYLVIDKSRSQENPEEVGHVLNALQLTSKFTSFKELGKQTGIIYYVPAYLTSKIDPTTGFANLFYVK YESVEKSKDFFNRFDSICFNKVAGYFEFSFDYKNFTDRACGMRSKWKVCTNGERIIKYRNEEKNSSFDDKVIVLTEE FKKLFNEYGIAFNDCMDLTDAINAIDDASFFRKLTKLFQQTLQMRNSSADGSRDYIISPVENDNGEFFNSEKCDKSK PKDADANGAFNIARKGLWVLEQLYNSSSGEKLNLAMTNAEWLEYAQQHTI* SEQ ID NO: 230 Gly-6xHis-TEV-NLS-ART2-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTTGTCAAATTTTACAAATCAGTACCAACTTTCAAAAACCTTGC GTTTTGAACTCAAACCTGTAGGTGATACACTTAAGCATATAGAGAAAAGTGGCTTGATAGCACAAGATGAAATACGC TCACAAGAGTATCAAGAAGTAAAAACGATTATCGATAAATACCACAAAGCTTTTATTGATGAAGCACTTCAAAATGT TGTGCTTAGTAATCTTGAAGAGTACGAAGCACTTTTTTTCGAGAGAAATCGCGATGAAAAAGCTTTTGAAAAATTGC AAGCTGTATTGCGTAAAGAGATAGTTGCACATTTTAAGCAACACCCTCAATACAAAACACTTTTTAAAAAAGAGCTT ATTAAAGCTGATTTGAAAAATTGGCAAGAACTAAGCGACGCAGAAAAAGAGCTTGTAAGCCACTTTGATAACTTCAC AACCTACTTTACAGGTTTTCATGAAAATCGTGCCAATATGTACACAGATGAAGCGAAACACTCTTCTATCGCTTACC GTATTATCCACGAAAATTTGCCTATTTTTTTAACAAATAAAAAACTTTTTGAAACAATCAAGCAAAAAGCACCACAC CTTGCACAAGAAACGCAAGATGCCTTGCTTGAATATTTAAGTGGTGCAATAGTTGAAGATATGTTTGAGCTTAGTTA TTTTAACCACCTACTTTCACAGACTCATATCGATCTATACAACCAAATGATTGGCGGAGTCAAACAAGATAGTTTAA AAATTCAGGGTTTAAACGAAAAAATCAATCTCTATCGTCAAGCAAACGGCTTGTCAAAACGTGAACTGCCAAATCTC AAACCACTACACAAACAGATACTTAGTGATCGTGAAACACTCTCTTGGCTTCCTGAATCATTTGAAAGCGATGAGGA ACTTATGCAAGGTGTGCAAGCATATTTTGAGAGTGAAGTATTAGCTTTTGAGTGCTGCGATGGTAAGGTCAATCTTT TAGAGAAACTGCCTGAGCTTTTGCACCAAACACAAGATTATGATTTTTCAAAAGTTTATTTCAAAAACGATCTAGCA CTTACAGCTGCTTCGCAAGCGATTTTTAAAGATTATCGCATTATAAAAGAAGCACTTTGGGAAGTGAATAAACCTAA AAAATCAAAAGATTTAGTGGCGGATGAAGAGAAGTTTTTTAACAAGAAAAATAGCTATTTTAGTATTGAGCAAATAG ATGGTGCCTTAAATAGTGCGCAACTCTCCGCTAACATGATGCACTATTTCCAAAGTGAATCTACAAAGGTAATCGAG CAAATTCAATTGACTTACAATGATTGGAAGCGAAACAGTTCAAATAAAGAACTTCTAAAAGCTTTTTTAGACGCGCT TTTATCGTATCAACGTCTTTTAAAACCGCTTAATGCTCCAAACGATCTTGAAAAAGATGTTGCTTTTTATGCCTACT TCGATGCTTATTTTACGAGTTTATGCGGTGTAGTCAAGCTTTACGACAAAGTAAGAAACTTTATGACCAAAAAGCCG TATTCACTTGAAAAATTTAAACTCAATTTTGAAAACTCGACACTACTTGATGGTTGGGATGTCAATAAAGAGTCTGA TAATACGGCAATTTTATTTCGCAAAGAGGGCTTGTATTATCTAGGTATTATGAATAAAAAGTATAACAAAGTATTTC GCAATATTTCTAGTTCACAAGATGAGGGTTACCAAAAAATTGACTATAAACTATTACCAGGTGCGAATAAAATGCTT CCAAAAGTCTTTTTTTCTGATAAGAATAAGGAATATTTTAAGCCAAATGCTAAGTTACTTGAGAGATATAAAGCGGG AGAGCATAAAAAAGGGGATAATTTCGACTTAGATTTTTGTCACGAATTAATAGACTTTTTTAAAACTTCAATCGAAA AACATCAAGATTGGAAACATTTTGCTTATCAGTTTTCACCGACTGAGAGTTACGAAGATTTAAGCGGTTTTTATAGA GAGGTTGAACAGCAAGGTTATAAAATCAGTTATAAAAATATTGCAGCAAGTTTTATCGATACATTAGTTGCAGAAGG TAAACTCTATTTTTTCCAGATCTACAACAAAGACTTTTCTCCCTATAGTAAAGGTACGCCAAATATGCACACTCTTT ATTGGCGTGCACTTTTTGACGAAAAGAATCTAGCTGATGTGATCTACAAACTTAACGGGCAAGCGGAGATATTTTTC CGTAAAAAATCGATCGAGTACTCCCAAGAGAAGCTGCAAAAAGGGCATCACCACGAAATGCTTAAAGATAAGTTTGC TTATCCAATTATCAAAGATCGTCGTTTTGCTTTTGATAAGTTCCAGTTTCATGTACCAATAACGCTCAACTTTAAAG CAGAGGGTAATGAAAACATTACGCCAAAAACATTTGAATACATTCGATCTAATCCCGACAACATAAAAGTTATAGGT ATAGATCGTGGTGAGCGTCACTTACTCTATCTTTCACTCATTGATGCAGAGGGTAAGATCGTAGAGCAGTTTACGCT CAATCAAATTATTAATAGCTACAACGGGAAAGACCACGTCATAGATTATCATGCCAAACTTGACGCAAAAGAAAAAG ACCGCGACAAAGCTCGAAAAGAGTGGGGAACTGTCGAAAACATCAAAGAACTAAAAGAGGGCTATTTAAGCCATGTT ATCCATAAGATAGCAACTCTTATCATTGAACACGGTGCAGTTGTAGCGATGGAAGATCTCAACTTTGGCTTTAAACG TGGACGTTTCAAAGTTGAAAAGCAAGTCTATCAAAAATTTGAAAAAGCACTTATCGATAAGCTGAACTATCTTGTCG ATAAGAAAAAAGAGCCTCATAAACTTGGAGGTCTTTTAAATGCGTTGCAACTCACTAGCAAGTTTCAAAGTTTTGAA AAAATGGGTAAACAAAACGGCTTTTTGTTTTATGTACCTGCGTGGAATACATCCAAAATAGATCCTGTTACGGGTTT TGTTAATCTTTTTGATACCCGTTATGCAAGTGTAGAAAAATCCAAAGCATTTTTTACTAAGTTTCAATCAATTTGCT ACAACGAAGCTAAAGATTACTTCGAGTTAGTATTTGATTATAATGATTTCACAGAAAAAGCTAAAGAAACTCGAAGC GAGTGGACACTTTGTACTTATGGTGAACGCATTGTGAGCTTTAGAAACGCGGAGAAAAATCATCAATGGGATAGCAA AACAATTCATCTTACAACAGAGTTTAAAAACCTTTTTGGTGAGCTGCATGGTAATGATGTAAAAGAGTATATTTTAG AGCAAAATTCAGTTGAGTTTTTTAAGTCACTTATCTATTTATTAAAAATTACTTTGCAGATGCGTAACTCAATCACG GGTACTGATATAGACTATCTTGTCTCACCCGTCGCAGATGAAGCAGGGAATTTTTACGACAGTCGTAAAGCCGATAC ATCTTTACCAAAAGATGCCGACGCAAACGGTGCGTATAATATCGCTCGTAAAGGTTTAATGTTGATGCATCGCATCC AAAACGCCGAAGATCTCAAAAAAGTGAACTTGGCGATTTCAAACCGTGACTGGCTCCGCAACGCTCAAGGACTGGAT AAAAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 231 Gly-6xHis-TEV-NLS-ART2_1-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGCTGAGTAACTTTACCAACCAGTATCAGTTATCCAAGACCTTAC GTTTCGAATTGAAGCCGGTCGGGGATACGTTGAAACACATCGAGAAGAGTGGGTTGATCGCCCAAGACGAAATCCGT TCCCAAGAGTACCAAGAGGTTAAAACAATCATCGACAAGTACCACAAAGCCTTTATCGACGAAGCTTTACAAAATGT GGTGTTATCCAATCTTGAGGAATACGAAGCTCTTTTCTTCGAACGTAATCGTGACGAGAAGGCGTTCGAGAAATTGC AAGCTGTATTGCGCAAAGAAATTGTAGCACATTTTAAACAACATCCCCAATATAAGACCCTTTTTAAGAAGGAGTTA ATCAAAGCTGACCTGAAAAATTGGCAAGAACTGAGCGATGCCGAGAAAGAGTTGGTCTCGCACTTTGATAACTTTAC TACATACTTCACGGGTTTCCACGAGAATCGCGCCAATATGTACACGGACGAGGCGAAGCACAGCAGTATCGCCTACC GTATTATTCACGAAAATCTTCCAATCTTTCTTACTAACAAGAAACTGTTCGAAACCATTAAGCAGAAAGCTCCACAT TTAGCCCAGGAAACGCAGGATGCATTATTGGAGTATTTATCCGGAGCCATCGTGGAAGATATGTTTGAACTTAGTTA TTTCAACCACTTGCTGAGTCAGACGCATATTGATCTGTATAATCAGATGATTGGTGGAGTTAAGCAGGATAGTTTAA AGATTCAGGGTCTGAATGAGAAGATTAATCTTTACCGTCAAGCGAATGGGCTTTCGAAACGTGAATTGCCGAATCTT AAACCGCTGCATAAACAAATTCTGTCGGATCGTGAGACATTATCTTGGCTTCCGGAATCTTTCGAGAGTGACGAGGA GCTGATGCAAGGGGTCCAGGCATATTTCGAATCTGAAGTTCTTGCCTTTGAATGTTGCGATGGGAAGGTTAACTTAT TAGAGAAACTGCCGGAGTTGTTACACCAAACACAGGATTATGATTTTAGTAAAGTTTACTTCAAGAACGATTTAGCA TTGACCGCTGCATCACAGGCAATCTTTAAAGACTATCGTATCATTAAGGAGGCGTTGTGGGAGGTTAATAAGCCGAA AAAATCTAAAGACTTAGTCGCTGACGAGGAAAAATTCTTTAATAAGAAGAACTCCTACTTCTCTATTGAGCAGATTG ATGGAGCGTTGAACTCGGCGCAGCTGAGCGCTAACATGATGCACTATTTTCAGAGTGAATCTACAAAGGTTATTGAA CAAATCCAATTGACTTATAACGACTGGAAGCGTAACAGTAGCAACAAGGAATTGCTTAAGGCATTCCTTGACGCACT GCTTTCTTATCAGCGTCTTTTAAAGCCTTTAAATGCCCCTAATGACCTTGAGAAGGATGTGGCATTCTATGCCTACT TTGACGCCTACTTTACAAGCCTGTGTGGTGTCGTTAAACTGTACGACAAGGTACGTAATTTCATGACCAAGAAGCCG TATTCGTTAGAGAAATTTAAGTTGAATTTTGAAAACTCGACGCTTTTAGACGGTTGGGATGTCAATAAAGAATCCGA CAACACTGCTATTTTATTTCGTAAGGAGGGGTTGTACTATCTGGGTATTATGAATAAAAAGTACAATAAGGTCTTTC GTAATATTTCATCATCCCAAGACGAGGGCTATCAAAAAATCGACTATAAATTACTTCCAGGGGCCAATAAGATGCTG CCAAAAGTGTTTTTCAGTGATAAGAATAAGGAGTATTTCAAGCCAAACGCCAAGCTGTTGGAACGTTACAAAGCCGG TGAGCACAAAAAAGGGGATAACTTTGATCTTGACTTCTGTCACGAATTGATCGACTTTTTCAAGACAAGCATCGAAA AGCACCAAGACTGGAAACACTTCGCCTACCAGTTTAGTCCCACCGAATCGTACGAGGACCTTTCAGGTTTTTACCGT GAGGTGGAACAACAGGGGTACAAAATCAGTTACAAAAATATCGCTGCTAGCTTTATCGATACGCTGGTGGCAGAGGG TAAACTGTATTTTTTCCAGATTTACAACAAGGATTTCAGTCCATACTCGAAGGGAACTCCCAACATGCACACCTTAT ATTGGCGTGCCTTGTTCGACGAGAAGAACTTAGCGGATGTAATTTATAAGTTGAACGGTCAGGCCGAAATTTTTTTT CGTAAAAAGAGCATCGAATATTCGCAGGAAAAGTTACAAAAGGGGCACCACCATGAGATGTTAAAGGATAAGTTTGC GTACCCAATTATCAAGGATCGCCGCTTTGCCTTTGACAAGTTCCAGTTTCACGTGCCTATTACACTGAATTTTAAAG CGGAGGGCAATGAGAATATCACTCCTAAGACGTTTGAATATATTCGCTCGAATCCTGATAACATTAAGGTGATTGGG ATTGATCGCGGCGAGCGCCACTTACTTTACCTGAGTTTAATCGACGCGGAAGGTAAGATTGTTGAACAGTTTACATT AAACCAAATTATCAATAGCTACAATGGGAAAGACCATGTGATTGACTATCATGCCAAATTGGATGCAAAGGAAAAAG ATCGCGATAAGGCTCGCAAGGAATGGGGGACTGTGGAAAATATCAAGGAATTGAAAGAAGGTTATTTAAGTCATGTA ATCCATAAAATCGCAACCCTTATTATCGAGCATGGCGCTGTTGTAGCAATGGAAGACCTTAATTTTGGCTTCAAGCG CGGGCGTTTCAAAGTGGAGAAGCAGGTGTATCAGAAATTTGAGAAAGCTTTAATTGATAAATTGAATTATTTGGTTG ATAAGAAAAAAGAGCCGCATAAGTTAGGTGGCTTGTTGAATGCTTTGCAATTAACGTCAAAATTTCAGTCTTTCGAA AAGATGGGAAAACAGAACGGTTTCCTTTTCTATGTGCCAGCCTGGAACACATCAAAAATTGACCCCGTCACTGGGTT TGTAAACCTGTTTGATACTCGCTATGCAAGCGTTGAAAAAAGTAAAGCTTTCTTCACGAAGTTCCAGTCAATTTGCT ACAATGAGGCCAAGGACTACTTTGAGTTGGTGTTCGACTACAATGACTTTACAGAGAAGGCTAAAGAAACACGTTCA GAGTGGACCTTATGTACATATGGGGAGCGCATCGTGTCTTTTCGCAATGCCGAAAAAAACCACCAGTGGGACTCCAA AACGATTCATTTGACCACTGAATTTAAGAATTTATTTGGGGAATTGCATGGGAATGATGTAAAAGAGTATATTCTGG AACAAAATTCTGTTGAATTTTTCAAATCACTGATTTATCTTCTTAAGATTACTCTTCAGATGCGCAATTCTATCACG GGCACCGACATTGACTACTTAGTCTCTCCGGTCGCAGATGAAGCTGGGAATTTCTATGACTCCCGTAAGGCGGACAC AAGTCTTCCGAAAGACGCTGATGCGAACGGTGCATACAATATCGCGCGCAAAGGACTGATGCTGATGCACCGTATCC AGAACGCGGAGGACTTGAAGAAGGTAAATTTGGCCATCTCAAATCGTGATTGGTTGCGCAATGCCCAAGGTTTAGAT AAAAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 232 Gly-6xHis-TEV-NLS-ART2_2-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTTGTCCAATTTTACTAATCAGTACCAGCTTAGCAAAACACTTC GCTTCGAGTTAAAGCCTGTTGGTGACACGCTTAAACACATTGAAAAGTCGGGACTGATCGCACAGGATGAGATTCGC TCACAGGAATATCAGGAGGTAAAGACCATTATCGACAAGTATCATAAAGCCTTCATTGATGAAGCATTGCAGAATGT TGTGCTGTCAAACCTGGAAGAATATGAAGCGTTATTTTTCGAACGTAACCGCGACGAAAAGGCGTTTGAGAAACTTC AAGCCGTACTGCGTAAGGAGATCGTGGCCCACTTTAAGCAGCACCCTCAGTATAAAACACTGTTCAAAAAGGAGTTG ATTAAAGCTGATCTGAAGAACTGGCAGGAGTTATCGGATGCAGAGAAAGAGCTTGTAAGCCATTTTGACAACTTCAC CACGTATTTCACCGGCTTTCATGAAAACCGTGCGAATATGTATACCGATGAAGCAAAACATTCTTCAATTGCTTACC GCATCATCCATGAAAACCTTCCAATTTTTCTTACAAACAAGAAACTTTTTGAAACAATTAAACAAAAGGCGCCGCAC CTGGCGCAAGAAACCCAGGATGCCCTGTTAGAGTATTTATCAGGCGCTATTGTAGAAGATATGTTTGAGCTGAGTTA TTTTAACCACTTGCTGAGTCAAACGCATATCGACCTTTATAATCAAATGATTGGGGGCGTGAAACAGGATTCGTTAA AAATCCAAGGACTTAACGAGAAGATCAATTTGTACCGCCAGGCGAACGGGCTGTCAAAACGCGAGTTGCCAAATTTG AAACCGTTGCATAAACAGATTTTATCCGACCGCGAGACGTTGTCGTGGTTACCCGAATCCTTTGAGTCCGACGAAGA ATTGATGCAAGGTGTTCAAGCTTATTTTGAATCGGAGGTCCTGGCCTTTGAATGCTGCGATGGGAAGGTAAACCTGT TGGAGAAGTTGCCAGAACTTCTGCACCAAACCCAGGACTATGATTTCAGCAAGGTATACTTCAAAAACGACCTGGCG TTAACTGCTGCCTCTCAGGCCATTTTCAAAGATTACCGCATTATTAAGGAGGCCCTGTGGGAGGTGAACAAACCAAA AAAGAGTAAGGATTTGGTAGCAGATGAGGAAAAATTCTTCAATAAGAAAAATAGTTATTTCAGCATCGAACAAATTG ACGGTGCCTTAAACTCAGCCCAATTGTCGGCTAATATGATGCATTATTTTCAGTCGGAGTCAACGAAAGTCATCGAA CAGATTCAGCTGACCTATAATGATTGGAAGCGCAACTCATCTAATAAGGAATTGCTGAAGGCCTTCCTGGATGCGTT ACTGTCGTACCAGCGCCTTCTTAAGCCGTTAAACGCCCCGAATGACTTAGAGAAGGATGTAGCGTTCTACGCCTATT TCGACGCGTATTTCACATCTCTTTGTGGGGTTGTGAAGTTATATGATAAAGTCCGTAACTTTATGACCAAGAAACCA TATTCACTGGAAAAGTTCAAGCTGAATTTTGAGAATTCGACGTTGTTAGATGGCTGGGATGTGAACAAGGAGTCTGA CAACACAGCTATTTTATTTCGCAAAGAGGGTCTTTACTATCTTGGAATCATGAATAAGAAGTATAACAAGGTCTTTC GCAACATCAGTTCCAGTCAGGACGAGGGATACCAGAAGATCGATTACAAATTGTTACCAGGAGCTAATAAGATGTTG CCCAAAGTGTTTTTCTCGGATAAGAACAAAGAATACTTCAAGCCTAACGCCAAACTGTTGGAACGCTATAAGGCGGG AGAACATAAGAAAGGTGATAATTTTGACTTAGATTTTTGTCATGAGCTTATCGACTTTTTCAAGACATCGATTGAAA AACATCAGGATTGGAAGCATTTTGCCTACCAGTTCTCCCCCACAGAGTCGTACGAGGACCTGAGTGGGTTCTATCGC GAAGTTGAACAACAAGGATATAAAATTTCCTACAAAAATATCGCGGCGAGCTTTATCGATACACTGGTCGCGGAGGG GAAACTTTATTTCTTCCAGATCTATAACAAAGACTTCTCACCATATTCTAAGGGCACTCCGAATATGCACACCTTGT ATTGGCGCGCACTGTTCGATGAGAAGAACTTGGCTGATGTGATCTATAAACTGAATGGTCAGGCGGAAATTTTCTTT CGCAAAAAATCCATCGAATATTCGCAGGAAAAGCTTCAGAAAGGTCACCACCATGAAATGTTGAAGGATAAGTTCGC CTACCCCATTATTAAGGATCGTCGTTTTGCTTTCGACAAATTCCAATTCCACGTGCCAATCACATTGAATTTTAAAG CTGAGGGCAATGAGAACATCACGCCAAAAACGTTTGAGTATATCCGCTCAAATCCAGATAACATCAAGGTGATCGGG ATCGATCGTGGAGAGCGTCACCTTCTGTATTTGTCGTTGATCGACGCGGAGGGCAAGATCGTGGAGCAATTTACGCT TAACCAGATTATTAATAGCTATAATGGTAAGGACCACGTCATTGATTACCATGCCAAGCTGGATGCTAAGGAGAAGG ACCGCGACAAGGCGCGCAAGGAATGGGGAACAGTCGAGAATATCAAAGAGCTGAAAGAGGGGTACTTATCTCATGTC ATTCACAAAATCGCCACGTTAATTATCGAGCATGGGGCCGTGGTAGCAATGGAGGATCTGAACTTTGGCTTCAAACG TGGTCGCTTTAAAGTGGAGAAGCAGGTATACCAAAAATTTGAAAAAGCACTTATCGACAAACTTAACTACCTGGTGG ACAAAAAGAAAGAACCACATAAATTAGGCGGCCTGTTGAACGCCCTGCAACTGACCTCTAAATTTCAGTCCTTCGAG AAAATGGGTAAACAGAATGGGTTTTTGTTCTACGTTCCCGCGTGGAACACATCGAAAATTGATCCAGTTACAGGGTT TGTCAACCTTTTTGATACACGCTATGCAAGCGTGGAAAAAAGTAAAGCCTTCTTCACCAAGTTTCAGTCCATCTGCT ACAATGAAGCCAAAGACTATTTTGAACTGGTCTTTGATTACAACGACTTTACGGAGAAAGCAAAAGAAACCCGTTCC GAGTGGACGCTTTGCACGTATGGGGAACGCATTGTGTCGTTTCGTAACGCTGAGAAGAACCACCAGTGGGACTCTAA GACGATCCACCTTACGACGGAATTCAAAAATCTTTTTGGAGAATTACATGGTAATGACGTTAAAGAGTATATTCTGG AGCAGAATTCGGTTGAATTCTTTAAGAGCCTGATCTATTTGTTGAAGATCACCCTTCAGATGCGCAATTCCATTACA GGTACAGATATTGACTATTTGGTCAGTCCGGTAGCGGACGAAGCGGGGAATTTTTATGATTCCCGCAAAGCAGATAC TAGTCTTCCTAAGGACGCTGATGCAAACGGAGCATATAACATCGCCCGTAAAGGACTTATGTTAATGCATCGTATTC AAAATGCAGAGGATCTTAAGAAAGTGAATCTTGCCATCAGTAATCGCGATTGGTTACGCAACGCACAGGGCCTGGAC AAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 233 Gly-6xHis-TEV-NLS-ART2_3-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGCTGTCGAACTTCACGAATCAATATCAGCTTAGTAAAACGTTAC GCTTCGAGTTAAAACCAGTTGGTGATACTTTAAAACATATTGAGAAGAGTGGCCTGATTGCACAGGACGAGATTCGC TCTCAGGAGTACCAGGAAGTTAAGACAATCATTGATAAATATCACAAGGCTTTCATTGATGAGGCATTACAAAACGT TGTACTTTCTAACCTGGAAGAGTATGAGGCTTTGTTTTTTGAACGTAACCGCGACGAGAAGGCTTTCGAGAAGCTGC AAGCAGTGTTACGCAAAGAGATCGTCGCGCATTTTAAGCAACACCCGCAGTATAAGACATTGTTCAAGAAAGAATTA ATCAAAGCAGACCTGAAAAATTGGCAGGAGCTTTCTGACGCTGAGAAGGAGCTGGTCAGCCACTTTGACAATTTCAC TACATATTTCACGGGATTCCATGAGAACCGTGCTAACATGTACACGGATGAAGCCAAACATAGTTCTATTGCTTACC GTATCATTCACGAGAATCTGCCAATCTTTTTGACTAACAAAAAGTTGTTCGAGACGATCAAGCAAAAGGCACCGCAC CTGGCGCAAGAGACCCAAGACGCCTTGTTAGAGTATTTGTCCGGAGCCATCGTCGAGGACATGTTTGAATTGTCTTA TTTCAATCATCTTCTTAGTCAAACCCACATCGATTTGTATAATCAAATGATTGGTGGCGTAAAGCAGGATTCGTTAA AAATCCAGGGTCTTAATGAAAAAATCAACCTGTATCGTCAAGCGAACGGATTATCTAAACGCGAACTTCCGAATCTG AAACCACTTCATAAGCAAATCTTGTCTGACCGCGAGACTCTGAGCTGGTTACCCGAGTCGTTCGAGAGCGATGAAGA GTTGATGCAGGGGGTACAGGCATACTTCGAGTCGGAGGTCTTAGCATTTGAGTGCTGCGACGGAAAGGTGAATCTTC TGGAAAAATTACCGGAGTTGCTTCACCAAACTCAGGACTACGACTTTTCCAAAGTCTATTTCAAAAACGACTTGGCT TTGACCGCAGCGAGCCAAGCAATTTTCAAGGATTATCGTATTATCAAGGAGGCACTTTGGGAAGTCAACAAGCCCAA AAAGAGTAAAGACCTGGTCGCTGATGAGGAAAAATTTTTCAATAAGAAGAATAGCTACTTCTCTATTGAGCAAATTG ACGGGGCTCTTAACTCCGCGCAGCTTTCAGCGAACATGATGCATTATTTTCAGTCGGAGTCTACTAAAGTAATCGAG CAGATCCAGTTAACCTACAACGACTGGAAGCGCAACAGTAGTAACAAGGAGTTACTTAAGGCGTTTTTGGATGCCTT ATTATCCTACCAACGTCTGTTAAAGCCCTTAAACGCACCTAACGACCTGGAAAAGGATGTAGCATTCTACGCTTACT TCGATGCTTATTTCACCAGCCTTTGTGGAGTTGTGAAGCTGTACGATAAAGTACGTAATTTTATGACTAAGAAACCG TACAGTTTGGAGAAGTTTAAGCTGAATTTTGAAAACAGCACGCTGTTGGATGGTTGGGACGTCAACAAGGAGTCAGA CAACACCGCCATCTTATTTCGCAAGGAAGGTTTATATTACCTGGGTATTATGAATAAGAAGTACAACAAAGTATTCC GCAACATTAGTTCTAGCCAAGATGAGGGCTATCAAAAGATCGATTACAAACTGTTGCCGGGTGCAAACAAAATGCTT CCAAAGGTCTTTTTCTCTGATAAAAACAAGGAATACTTTAAACCTAATGCTAAACTTTTAGAACGCTACAAAGCCGG CGAGCACAAAAAGGGCGACAACTTCGATTTAGACTTCTGCCACGAGTTGATCGACTTCTTCAAGACGTCTATTGAGA AACACCAAGATTGGAAACATTTCGCATATCAATTTTCGCCTACTGAGAGTTACGAAGATCTGTCCGGTTTCTACCGC GAAGTCGAGCAACAGGGCTACAAAATTAGCTACAAAAATATTGCGGCGTCTTTCATCGACACGCTGGTGGCTGAAGG AAAGCTGTATTTTTTTCAAATCTATAACAAGGACTTCTCTCCATATAGCAAAGGTACCCCGAACATGCATACACTGT ACTGGCGCGCTCTTTTCGACGAAAAGAACCTTGCAGACGTAATCTACAAGCTGAACGGTCAAGCTGAAATTTTTTTC CGTAAGAAGTCAATCGAATACAGCCAAGAAAAATTACAGAAAGGCCACCATCATGAAATGTTGAAAGATAAATTTGC ATACCCAATTATCAAAGATCGTCGCTTCGCTTTCGATAAATTCCAGTTCCATGTTCCCATTACCCTGAACTTTAAGG CGGAGGGGAACGAAAACATTACCCCTAAAACCTTCGAGTACATTCGTTCCAACCCGGACAATATCAAGGTTATCGGC ATCGACCGCGGTGAACGCCATCTGTTATATCTTAGCTTGATCGATGCGGAAGGTAAGATTGTCGAGCAATTCACCCT TAACCAGATCATTAACTCATATAATGGTAAGGACCACGTAATCGACTATCATGCAAAGCTTGACGCCAAGGAGAAGG ATCGCGACAAGGCGCGTAAAGAATGGGGCACAGTTGAGAACATTAAGGAGCTGAAAGAAGGTTACTTAAGTCATGTC ATTCACAAAATTGCAACACTGATCATCGAACATGGTGCCGTGGTCGCAATGGAGGACCTGAATTTTGGATTCAAGCG CGGTCGCTTTAAGGTGGAAAAACAAGTCTATCAAAAATTTGAAAAAGCTTTAATTGATAAACTTAACTACCTTGTTG ACAAGAAAAAGGAGCCTCACAAATTAGGTGGGCTTCTGAATGCGCTGCAATTAACGTCCAAGTTTCAATCCTTCGAA AAAATGGGAAAACAGAATGGTTTTTTATTCTATGTCCCGGCTTGGAACACAAGTAAAATTGATCCTGTTACCGGCTT CGTGAATTTGTTCGATACCCGCTACGCGAGCGTAGAAAAATCTAAAGCATTTTTCACCAAATTTCAGAGTATCTGCT ATAATGAGGCAAAGGATTATTTTGAATTGGTTTTCGACTATAATGATTTTACAGAAAAAGCTAAAGAGACTCGTTCT GAGTGGACCTTGTGTACGTATGGTGAACGTATCGTAAGCTTCCGCAACGCTGAAAAAAATCACCAGTGGGACTCTAA AACGATTCATTTGACAACCGAGTTTAAAAACCTTTTCGGAGAATTGCACGGTAACGACGTTAAGGAATATATCTTAG AACAAAATTCGGTCGAATTTTTCAAGTCCCTTATCTATCTTTTGAAAATCACTCTTCAGATGCGCAATTCGATCACA GGGACCGATATCGATTATCTTGTTTCACCTGTGGCTGACGAAGCAGGCAACTTTTACGACAGCCGCAAGGCCGACAC TAGCTTACCGAAAGACGCAGATGCTAACGGCGCCTACAATATCGCTCGCAAAGGTCTTATGCTTATGCATCGCATTC AAAACGCTGAGGACTTAAAGAAGGTTAATTTAGCGATTTCTAATCGTGACTGGTTGCGTAACGCGCAAGGGCTGGAC AAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 234 Gly-6xHis-TEV-NLS-ART2_4-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTTGTCTAACTTCACCAACCAGTATCAATTATCGAAAACTCTGC GTTTTGAGCTTAAACCCGTCGGGGATACGCTTAAACATATTGAGAAAAGCGGGCTGATCGCCCAAGACGAAATCCGT AGCCAAGAGTATCAGGAAGTCAAAACCATTATCGATAAGTACCACAAGGCATTCATCGACGAGGCGTTGCAGAACGT TGTACTTTCTAATTTGGAAGAATACGAGGCTCTGTTTTTTGAGCGTAACCGCGACGAAAAGGCGTTCGAGAAGCTGC AAGCAGTGTTGCGTAAAGAAATTGTAGCGCACTTTAAACAACACCCCCAATACAAGACTTTGTTTAAAAAAGAGCTT ATTAAGGCCGATTTAAAAAACTGGCAAGAGCTGTCCGACGCTGAGAAGGAATTGGTGAGTCATTTCGACAACTTTAC AACATATTTCACGGGATTCCACGAAAATCGCGCAAATATGTACACGGATGAAGCTAAGCATAGCAGCATCGCATATC GTATCATTCACGAAAACTTACCGATCTTTCTTACGAACAAAAAACTTTTCGAGACGATTAAGCAAAAGGCCCCCCAC CTTGCCCAGGAGACACAGGATGCGCTTCTTGAGTATTTGTCAGGTGCAATTGTCGAAGACATGTTCGAACTGTCATA TTTTAACCACTTGTTATCCCAAACTCATATCGACCTTTATAATCAGATGATTGGTGGCGTTAAACAAGACAGCTTGA AGATCCAAGGACTGAATGAAAAAATCAATCTTTACCGCCAGGCTAACGGCTTATCAAAGCGCGAATTGCCAAACTTG AAACCCCTGCACAAACAGATTCTGAGTGACCGTGAGACACTGTCTTGGTTACCAGAGAGCTTCGAGTCAGACGAAGA GTTAATGCAGGGTGTGCAGGCCTACTTCGAATCAGAGGTCTTAGCCTTTGAGTGTTGTGATGGTAAAGTGAATCTGC TGGAAAAATTGCCGGAACTGCTTCACCAGACCCAAGATTACGACTTTAGCAAAGTCTATTTTAAAAACGACCTTGCT TTGACGGCAGCCTCCCAGGCGATTTTTAAAGATTATCGTATCATTAAGGAGGCGTTATGGGAGGTGAATAAGCCTAA AAAATCCAAGGATCTGGTTGCAGATGAGGAGAAATTTTTTAATAAGAAGAATAGTTATTTCAGTATCGAGCAGATTG ACGGAGCACTGAATAGTGCTCAATTGTCCGCCAATATGATGCACTATTTTCAATCAGAGTCAACCAAGGTTATTGAA CAGATCCAGTTGACTTATAACGACTGGAAGCGTAACTCATCGAACAAAGAACTTTTAAAAGCATTCTTAGACGCGCT TTTGTCTTACCAACGTCTGCTTAAACCTCTGAATGCGCCTAACGATTTAGAAAAAGATGTTGCATTTTATGCTTACT TCGATGCGTACTTCACGTCTTTGTGTGGAGTTGTAAAACTTTACGATAAAGTACGCAATTTTATGACCAAGAAACCA TATAGCTTGGAAAAATTTAAGTTAAACTTTGAGAACTCCACTCTTTTGGACGGATGGGATGTAAACAAGGAATCGGA TAATACCGCGATTCTTTTTCGTAAGGAAGGACTTTATTATCTGGGCATCATGAATAAGAAGTACAATAAGGTATTCC GTAATATCTCTTCTTCACAAGATGAAGGTTACCAGAAGATTGATTACAAATTACTGCCAGGTGCCAATAAAATGTTG CCGAAAGTTTTTTTTTCGGATAAAAACAAGGAGTATTTCAAACCGAACGCGAAGTTATTAGAGCGCTACAAAGCTGG CGAGCATAAAAAAGGGGACAACTTTGATTTAGACTTCTGCCATGAGTTAATCGACTTCTTCAAGACATCAATTGAAA AACACCAAGACTGGAAGCATTTTGCCTATCAGTTCTCGCCAACCGAGAGTTATGAGGATCTGTCAGGGTTCTATCGC GAGGTTGAACAGCAAGGGTATAAGATCTCTTACAAAAATATCGCAGCCTCTTTTATCGATACTCTTGTCGCGGAAGG AAAGCTGTATTTCTTCCAGATTTATAATAAGGATTTTTCACCGTACTCTAAGGGTACACCTAATATGCACACATTGT ACTGGCGCGCTCTGTTCGATGAGAAAAACCTTGCCGACGTAATCTACAAATTGAATGGGCAAGCAGAGATCTTCTTC CGCAAAAAGTCGATTGAATATTCGCAAGAAAAATTACAAAAAGGTCATCATCACGAGATGCTGAAGGATAAGTTTGC ATACCCGATCATTAAAGATCGTCGCTTTGCTTTCGATAAATTCCAGTTCCACGTGCCAATCACATTGAATTTCAAGG CTGAGGGAAATGAGAATATTACACCTAAAACCTTTGAGTATATCCGTTCTAATCCTGATAACATCAAAGTGATCGGA ATTGACCGTGGGGAACGCCATCTTCTGTACTTATCATTGATTGATGCGGAGGGCAAGATTGTGGAGCAATTTACCTT GAACCAGATTATTAACTCATACAACGGAAAGGATCATGTAATCGATTACCATGCGAAATTAGATGCGAAGGAGAAGG ATCGCGACAAAGCCCGCAAAGAGTGGGGTACAGTTGAAAACATTAAAGAGTTGAAGGAGGGTTATCTGAGCCATGTC ATCCATAAGATCGCTACTTTGATTATTGAGCATGGAGCGGTTGTGGCAATGGAAGATTTGAACTTCGGCTTCAAGCG TGGGCGTTTCAAGGTTGAGAAACAAGTTTATCAGAAATTTGAAAAGGCGCTTATTGATAAGTTAAATTACTTGGTAG ACAAGAAGAAGGAACCCCACAAGCTGGGGGGGTTATTAAATGCTTTGCAACTTACAAGTAAATTCCAGAGCTTCGAG AAAATGGGAAAACAGAACGGGTTTTTGTTCTATGTGCCTGCCTGGAACACGTCAAAGATCGACCCTGTGACCGGGTT CGTAAACCTTTTCGACACTCGTTATGCAAGCGTTGAGAAGAGTAAGGCCTTTTTTACGAAATTTCAGTCGATCTGTT ACAACGAAGCGAAGGACTACTTTGAACTGGTCTTTGACTATAATGACTTTACTGAAAAGGCCAAGGAAACCCGCTCA GAATGGACGTTATGTACATACGGCGAGCGTATTGTGAGCTTTCGTAACGCGGAGAAGAACCATCAATGGGACAGCAA GACCATTCATCTTACAACGGAATTTAAGAATCTGTTTGGAGAGTTACACGGCAACGATGTGAAGGAGTATATCCTTG AGCAGAACTCGGTGGAATTCTTTAAGTCCCTTATCTATTTGCTTAAAATCACTCTGCAGATGCGTAATTCTATTACA GGAACTGATATTGATTACTTAGTGTCGCCGGTAGCTGATGAAGCCGGGAATTTCTATGACAGCCGTAAAGCGGACAC CAGCTTGCCCAAGGATGCGGACGCCAATGGCGCGTATAATATTGCACGCAAAGGACTGATGTTAATGCACCGCATTC AGAACGCAGAGGACCTGAAGAAGGTAAATCTTGCGATCTCCAATCGCGACTGGTTACGTAACGCCCAGGGCCTTGAT AAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 235 Gly-6xHis-TEV-NLS-ART2-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTTGTCAAATTTTACAAATCAGTACCAACTTTCAAAAACCTTGC GTTTTGAACTCAAACCTGTAGGTGATACACTTAAGCATATAGAGAAAAGTGGCTTGATAGCACAAGATGAAATACGC TCACAAGAGTATCAAGAAGTAAAAACGATTATCGATAAATACCACAAAGCTTTTATTGATGAAGCACTTCAAAATGT TGTGCTTAGTAATCTTGAAGAGTACGAAGCACTTTTTTTCGAGAGAAATCGCGATGAAAAAGCTTTTGAAAAATTGC AAGCTGTATTGCGTAAAGAGATAGTTGCACATTTTAAGCAACACCCTCAATACAAAACACTTTTTAAAAAAGAGCTT ATTAAAGCTGATTTGAAAAATTGGCAAGAACTAAGCGACGCAGAAAAAGAGCTTGTAAGCCACTTTGATAACTTCAC AACCTACTTTACAGGTTTTCATGAAAATCGTGCCAATATGTACACAGATGAAGCGAAACACTCTTCTATCGCTTACC GTATTATCCACGAAAATTTGCCTATTTTTTTAACAAATAAAAAACTTTTTGAAACAATCAAGCAAAAAGCACCACAC CTTGCACAAGAAACGCAAGATGCCTTGCTTGAATATTTAAGTGGTGCAATAGTTGAAGATATGTTTGAGCTTAGTTA TTTTAACCACCTACTTTCACAGACTCATATCGATCTATACAACCAAATGATTGGCGGAGTCAAACAAGATAGTTTAA AAATTCAGGGTTTAAACGAAAAAATCAATCTCTATCGTCAAGCAAACGGCTTGTCAAAACGTGAACTGCCAAATCTC AAACCACTACACAAACAGATACTTAGTGATCGTGAAACACTCTCTTGGCTTCCTGAATCATTTGAAAGCGATGAGGA ACTTATGCAAGGTGTGCAAGCATATTTTGAGAGTGAAGTATTAGCTTTTGAGTGCTGCGATGGTAAGGTCAATCTTT TAGAGAAACTGCCTGAGCTTTTGCACCAAACACAAGATTATGATTTTTCAAAAGTTTATTTCAAAAACGATCTAGCA CTTACAGCTGCTTCGCAAGCGATTTTTAAAGATTATCGCATTATAAAAGAAGCACTTTGGGAAGTGAATAAACCTAA AAAATCAAAAGATTTAGTGGCGGATGAAGAGAAGTTTTTTAACAAGAAAAATAGCTATTTTAGTATTGAGCAAATAG ATGGTGCCTTAAATAGTGCGCAACTCTCCGCTAACATGATGCACTATTTCCAAAGTGAATCTACAAAGGTAATCGAG CAAATTCAATTGACTTACAATGATTGGAAGCGAAACAGTTCAAATAAAGAACTTCTAAAAGCTTTTTTAGACGCGCT TTTATCGTATCAACGTCTTTTAAAACCGCTTAATGCTCCAAACGATCTTGAAAAAGATGTTGCTTTTTATGCCTACT TCGATGCTTATTTTACGAGTTTATGCGGTGTAGTCAAGCTTTACGACAAAGTAAGAAACTTTATGACCAAAAAGCCG TATTCACTTGAAAAATTTAAACTCAATTTTGAAAACTCGACACTACTTGATGGTTGGGATGTCAATAAAGAGTCTGA TAATACGGCAATTTTATTTCGCAAAGAGGGCTTGTATTATCTAGGTATTATGAATAAAAAGTATAACAAAGTATTTC GCAATATTTCTAGTTCACAAGATGAGGGTTACCAAAAAATTGACTATAAACTATTACCAGGTGCGAATAAAATGCTT CCAAAAGTCTTTTTTTCTGATAAGAATAAGGAATATTTTAAGCCAAATGCTAAGTTACTTGAGAGATATAAAGCGGG AGAGCATAAAAAAGGGGATAATTTCGACTTAGATTTTTGTCACGAATTAATAGACTTTTTTAAAACTTCAATCGAAA AACATCAAGATTGGAAACATTTTGCTTATCAGTTTTCACCGACTGAGAGTTACGAAGATTTAAGCGGTTTTTATAGA GAGGTTGAACAGCAAGGTTATAAAATCAGTTATAAAAATATTGCAGCAAGTTTTATCGATACATTAGTTGCAGAAGG TAAACTCTATTTTTTCCAGATCTACAACAAAGACTTTTCTCCCTATAGTAAAGGTACGCCAAATATGCACACTCTTT ATTGGCGTGCACTTTTTGACGAAAAGAATCTAGCTGATGTGATCTACAAACTTAACGGGCAAGCGGAGATATTTTTC CGTAAAAAATCGATCGAGTACTCCCAAGAGAAGCTGCAAAAAGGGCATCACCACGAAATGCTTAAAGATAAGTTTGC TTATCCAATTATCAAAGATCGTCGTTTTGCTTTTGATAAGTTCCAGTTTCATGTACCAATAACGCTCAACTTTAAAG CAGAGGGTAATGAAAACATTACGCCAAAAACATTTGAATACATTCGATCTAATCCCGACAACATAAAAGTTATAGGT ATAGATCGTGGTGAGCGTCACTTACTCTATCTTTCACTCATTGATGCAGAGGGTAAGATCGTAGAGCAGTTTACGCT CAATCAAATTATTAATAGCTACAACGGGAAAGACCACGTCATAGATTATCATGCCAAACTTGACGCAAAAGAAAAAG ACCGCGACAAAGCTCGAAAAGAGTGGGGAACTGTCGAAAACATCAAAGAACTAAAAGAGGGCTATTTAAGCCATGTT ATCCATAAGATAGCAACTCTTATCATTGAACACGGTGCAGTTGTAGCGATGGAAGATCTCAACTTTGGCTTTAAACG TGGACGTTTCAAAGTTGAAAAGCAAGTCTATCAAAAATTTGAAAAAGCACTTATCGATAAGCTGAACTATCTTGTCG ATAAGAAAAAAGAGCCTCATAAACTTGGAGGTCTTTTAAATGCGTTGCAACTCACTAGCAAGTTTCAAAGTTTTGAA AAAATGGGTAAACAAAACGGCTTTTTGTTTTATGTACCTGCGTGGAATACATCCAAAATAGATCCTGTTACGGGTTT TGTTAATCTTTTTGATACCCGTTATGCAAGTGTAGAAAAATCCAAAGCATTTTTTACTAAGTTTCAATCAATTTGCT ACAACGAAGCTAAAGATTACTTCGAGTTAGTATTTGATTATAATGATTTCACAGAAAAAGCTAAAGAAACTCGAAGC GAGTGGACACTTTGTACTTATGGTGAACGCATTGTGAGCTTTAGAAACGCGGAGAAAAATCATCAATGGGATAGCAA AACAATTCATCTTACAACAGAGTTTAAAAACCTTTTTGGTGAGCTGCATGGTAATGATGTAAAAGAGTATATTTTAG AGCAAAATTCAGTTGAGTTTTTTAAGTCACTTATCTATTTATTAAAAATTACTTTGCAGATGCGTAACTCAATCACG GGTACTGATATAGACTATCTTGTCTCACCCGTCGCAGATGAAGCAGGGAATTTTTACGACAGTCGTAAAGCCGATAC ATCTTTACCAAAAGATGCCGACGCAAACGGTGCGTATAATATCGCTCGTAAAGGTTTAATGTTGATGCATCGCATCC AAAACGCCGAAGATCTCAAAAAAGTGAACTTGGCGATTTCAAACCGTGACTGGCTCCGCAACGCTCAAGGACTGGAT AAAAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacctgtatttccagggagggagtggat ctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgacatcgattacaaggatgacgatgac aag SEQ ID NO: 236 Gly-6xHis-TEV-NLS-ART2_1-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGCTGAGTAACTTTACCAACCAGTATCAGTTATCCAAGACCTTAC GTTTCGAATTGAAGCCGGTCGGGGATACGTTGAAACACATCGAGAAGAGTGGGTTGATCGCCCAAGACGAAATCCGT TCCCAAGAGTACCAAGAGGTTAAAACAATCATCGACAAGTACCACAAAGCCTTTATCGACGAAGCTTTACAAAATGT GGTGTTATCCAATCTTGAGGAATACGAAGCTCTTTTCTTCGAACGTAATCGTGACGAGAAGGCGTTCGAGAAATTGC AAGCTGTATTGCGCAAAGAAATTGTAGCACATTTTAAACAACATCCCCAATATAAGACCCTTTTTAAGAAGGAGTTA ATCAAAGCTGACCTGAAAAATTGGCAAGAACTGAGCGATGCCGAGAAAGAGTTGGTCTCGCACTTTGATAACTTTAC TACATACTTCACGGGTTTCCACGAGAATCGCGCCAATATGTACACGGACGAGGCGAAGCACAGCAGTATCGCCTACC GTATTATTCACGAAAATCTTCCAATCTTTCTTACTAACAAGAAACTGTTCGAAACCATTAAGCAGAAAGCTCCACAT TTAGCCCAGGAAACGCAGGATGCATTATTGGAGTATTTATCCGGAGCCATCGTGGAAGATATGTTTGAACTTAGTTA TTTCAACCACTTGCTGAGTCAGACGCATATTGATCTGTATAATCAGATGATTGGTGGAGTTAAGCAGGATAGTTTAA AGATTCAGGGTCTGAATGAGAAGATTAATCTTTACCGTCAAGCGAATGGGCTTTCGAAACGTGAATTGCCGAATCTT AAACCGCTGCATAAACAAATTCTGTCGGATCGTGAGACATTATCTTGGCTTCCGGAATCTTTCGAGAGTGACGAGGA GCTGATGCAAGGGGTCCAGGCATATTTCGAATCTGAAGTTCTTGCCTTTGAATGTTGCGATGGGAAGGTTAACTTAT TAGAGAAACTGCCGGAGTTGTTACACCAAACACAGGATTATGATTTTAGTAAAGTTTACTTCAAGAACGATTTAGCA TTGACCGCTGCATCACAGGCAATCTTTAAAGACTATCGTATCATTAAGGAGGCGTTGTGGGAGGTTAATAAGCCGAA AAAATCTAAAGACTTAGTCGCTGACGAGGAAAAATTCTTTAATAAGAAGAACTCCTACTTCTCTATTGAGCAGATTG ATGGAGCGTTGAACTCGGCGCAGCTGAGCGCTAACATGATGCACTATTTTCAGAGTGAATCTACAAAGGTTATTGAA CAAATCCAATTGACTTATAACGACTGGAAGCGTAACAGTAGCAACAAGGAATTGCTTAAGGCATTCCTTGACGCACT GCTTTCTTATCAGCGTCTTTTAAAGCCTTTAAATGCCCCTAATGACCTTGAGAAGGATGTGGCATTCTATGCCTACT TTGACGCCTACTTTACAAGCCTGTGTGGTGTCGTTAAACTGTACGACAAGGTACGTAATTTCATGACCAAGAAGCCG TATTCGTTAGAGAAATTTAAGTTGAATTTTGAAAACTCGACGCTTTTAGACGGTTGGGATGTCAATAAAGAATCCGA CAACACTGCTATTTTATTTCGTAAGGAGGGGTTGTACTATCTGGGTATTATGAATAAAAAGTACAATAAGGTCTTTC GTAATATTTCATCATCCCAAGACGAGGGCTATCAAAAAATCGACTATAAATTACTTCCAGGGGCCAATAAGATGCTG CCAAAAGTGTTTTTCAGTGATAAGAATAAGGAGTATTTCAAGCCAAACGCCAAGCTGTTGGAACGTTACAAAGCCGG TGAGCACAAAAAAGGGGATAACTTTGATCTTGACTTCTGTCACGAATTGATCGACTTTTTCAAGACAAGCATCGAAA AGCACCAAGACTGGAAACACTTCGCCTACCAGTTTAGTCCCACCGAATCGTACGAGGACCTTTCAGGTTTTTACCGT GAGGTGGAACAACAGGGGTACAAAATCAGTTACAAAAATATCGCTGCTAGCTTTATCGATACGCTGGTGGCAGAGGG TAAACTGTATTTTTTCCAGATTTACAACAAGGATTTCAGTCCATACTCGAAGGGAACTCCCAACATGCACACCTTAT ATTGGCGTGCCTTGTTCGACGAGAAGAACTTAGCGGATGTAATTTATAAGTTGAACGGTCAGGCCGAAATTTTTTTT CGTAAAAAGAGCATCGAATATTCGCAGGAAAAGTTACAAAAGGGGCACCACCATGAGATGTTAAAGGATAAGTTTGC GTACCCAATTATCAAGGATCGCCGCTTTGCCTTTGACAAGTTCCAGTTTCACGTGCCTATTACACTGAATTTTAAAG CGGAGGGCAATGAGAATATCACTCCTAAGACGTTTGAATATATTCGCTCGAATCCTGATAACATTAAGGTGATTGGG ATTGATCGCGGCGAGCGCCACTTACTTTACCTGAGTTTAATCGACGCGGAAGGTAAGATTGTTGAACAGTTTACATT AAACCAAATTATCAATAGCTACAATGGGAAAGACCATGTGATTGACTATCATGCCAAATTGGATGCAAAGGAAAAAG ATCGCGATAAGGCTCGCAAGGAATGGGGGACTGTGGAAAATATCAAGGAATTGAAAGAAGGTTATTTAAGTCATGTA ATCCATAAAATCGCAACCCTTATTATCGAGCATGGCGCTGTTGTAGCAATGGAAGACCTTAATTTTGGCTTCAAGCG CGGGCGTTTCAAAGTGGAGAAGCAGGTGTATCAGAAATTTGAGAAAGCTTTAATTGATAAATTGAATTATTTGGTTG ATAAGAAAAAAGAGCCGCATAAGTTAGGTGGCTTGTTGAATGCTTTGCAATTAACGTCAAAATTTCAGTCTTTCGAA AAGATGGGAAAACAGAACGGTTTCCTTTTCTATGTGCCAGCCTGGAACACATCAAAAATTGACCCCGTCACTGGGTT TGTAAACCTGTTTGATACTCGCTATGCAAGCGTTGAAAAAAGTAAAGCTTTCTTCACGAAGTTCCAGTCAATTTGCT ACAATGAGGCCAAGGACTACTTTGAGTTGGTGTTCGACTACAATGACTTTACAGAGAAGGCTAAAGAAACACGTTCA GAGTGGACCTTATGTACATATGGGGAGCGCATCGTGTCTTTTCGCAATGCCGAAAAAAACCACCAGTGGGACTCCAA AACGATTCATTTGACCACTGAATTTAAGAATTTATTTGGGGAATTGCATGGGAATGATGTAAAAGAGTATATTCTGG AACAAAATTCTGTTGAATTTTTCAAATCACTGATTTATCTTCTTAAGATTACTCTTCAGATGCGCAATTCTATCACG GGCACCGACATTGACTACTTAGTCTCTCCGGTCGCAGATGAAGCTGGGAATTTCTATGACTCCCGTAAGGCGGACAC AAGTCTTCCGAAAGACGCTGATGCGAACGGTGCATACAATATCGCGCGCAAAGGACTGATGCTGATGCACCGTATCC AGAACGCGGAGGACTTGAAGAAGGTAAATTTGGCCATCTCAAATCGTGATTGGTTGCGCAATGCCCAAGGTTTAGAT AAAAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacctgtatttccagggagggagtggat ctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgacatcgattacaaggatgacgatgac aag SEQ ID NO: 237 Gly-6xHis-TEV-NLS-ART2_2-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTTGTCCAATTTTACTAATCAGTACCAGCTTAGCAAAACACTTC GCTTCGAGTTAAAGCCTGTTGGTGACACGCTTAAACACATTGAAAAGTCGGGACTGATCGCACAGGATGAGATTCGC TCACAGGAATATCAGGAGGTAAAGACCATTATCGACAAGTATCATAAAGCCTTCATTGATGAAGCATTGCAGAATGT TGTGCTGTCAAACCTGGAAGAATATGAAGCGTTATTTTTCGAACGTAACCGCGACGAAAAGGCGTTTGAGAAACTTC AAGCCGTACTGCGTAAGGAGATCGTGGCCCACTTTAAGCAGCACCCTCAGTATAAAACACTGTTCAAAAAGGAGTTG ATTAAAGCTGATCTGAAGAACTGGCAGGAGTTATCGGATGCAGAGAAAGAGCTTGTAAGCCATTTTGACAACTTCAC CACGTATTTCACCGGCTTTCATGAAAACCGTGCGAATATGTATACCGATGAAGCAAAACATTCTTCAATTGCTTACC GCATCATCCATGAAAACCTTCCAATTTTTCTTACAAACAAGAAACTTTTTGAAACAATTAAACAAAAGGCGCCGCAC CTGGCGCAAGAAACCCAGGATGCCCTGTTAGAGTATTTATCAGGCGCTATTGTAGAAGATATGTTTGAGCTGAGTTA TTTTAACCACTTGCTGAGTCAAACGCATATCGACCTTTATAATCAAATGATTGGGGGCGTGAAACAGGATTCGTTAA AAATCCAAGGACTTAACGAGAAGATCAATTTGTACCGCCAGGCGAACGGGCTGTCAAAACGCGAGTTGCCAAATTTG AAACCGTTGCATAAACAGATTTTATCCGACCGCGAGACGTTGTCGTGGTTACCCGAATCCTTTGAGTCCGACGAAGA ATTGATGCAAGGTGTTCAAGCTTATTTTGAATCGGAGGTCCTGGCCTTTGAATGCTGCGATGGGAAGGTAAACCTGT TGGAGAAGTTGCCAGAACTTCTGCACCAAACCCAGGACTATGATTTCAGCAAGGTATACTTCAAAAACGACCTGGCG TTAACTGCTGCCTCTCAGGCCATTTTCAAAGATTACCGCATTATTAAGGAGGCCCTGTGGGAGGTGAACAAACCAAA AAAGAGTAAGGATTTGGTAGCAGATGAGGAAAAATTCTTCAATAAGAAAAATAGTTATTTCAGCATCGAACAAATTG ACGGTGCCTTAAACTCAGCCCAATTGTCGGCTAATATGATGCATTATTTTCAGTCGGAGTCAACGAAAGTCATCGAA CAGATTCAGCTGACCTATAATGATTGGAAGCGCAACTCATCTAATAAGGAATTGCTGAAGGCCTTCCTGGATGCGTT ACTGTCGTACCAGCGCCTTCTTAAGCCGTTAAACGCCCCGAATGACTTAGAGAAGGATGTAGCGTTCTACGCCTATT TCGACGCGTATTTCACATCTCTTTGTGGGGTTGTGAAGTTATATGATAAAGTCCGTAACTTTATGACCAAGAAACCA TATTCACTGGAAAAGTTCAAGCTGAATTTTGAGAATTCGACGTTGTTAGATGGCTGGGATGTGAACAAGGAGTCTGA CAACACAGCTATTTTATTTCGCAAAGAGGGTCTTTACTATCTTGGAATCATGAATAAGAAGTATAACAAGGTCTTTC GCAACATCAGTTCCAGTCAGGACGAGGGATACCAGAAGATCGATTACAAATTGTTACCAGGAGCTAATAAGATGTTG CCCAAAGTGTTTTTCTCGGATAAGAACAAAGAATACTTCAAGCCTAACGCCAAACTGTTGGAACGCTATAAGGCGGG AGAACATAAGAAAGGTGATAATTTTGACTTAGATTTTTGTCATGAGCTTATCGACTTTTTCAAGACATCGATTGAAA AACATCAGGATTGGAAGCATTTTGCCTACCAGTTCTCCCCCACAGAGTCGTACGAGGACCTGAGTGGGTTCTATCGC GAAGTTGAACAACAAGGATATAAAATTTCCTACAAAAATATCGCGGCGAGCTTTATCGATACACTGGTCGCGGAGGG GAAACTTTATTTCTTCCAGATCTATAACAAAGACTTCTCACCATATTCTAAGGGCACTCCGAATATGCACACCTTGT ATTGGCGCGCACTGTTCGATGAGAAGAACTTGGCTGATGTGATCTATAAACTGAATGGTCAGGCGGAAATTTTCTTT CGCAAAAAATCCATCGAATATTCGCAGGAAAAGCTTCAGAAAGGTCACCACCATGAAATGTTGAAGGATAAGTTCGC CTACCCCATTATTAAGGATCGTCGTTTTGCTTTCGACAAATTCCAATTCCACGTGCCAATCACATTGAATTTTAAAG CTGAGGGCAATGAGAACATCACGCCAAAAACGTTTGAGTATATCCGCTCAAATCCAGATAACATCAAGGTGATCGGG ATCGATCGTGGAGAGCGTCACCTTCTGTATTTGTCGTTGATCGACGCGGAGGGCAAGATCGTGGAGCAATTTACGCT TAACCAGATTATTAATAGCTATAATGGTAAGGACCACGTCATTGATTACCATGCCAAGCTGGATGCTAAGGAGAAGG ACCGCGACAAGGCGCGCAAGGAATGGGGAACAGTCGAGAATATCAAAGAGCTGAAAGAGGGGTACTTATCTCATGTC ATTCACAAAATCGCCACGTTAATTATCGAGCATGGGGCCGTGGTAGCAATGGAGGATCTGAACTTTGGCTTCAAACG TGGTCGCTTTAAAGTGGAGAAGCAGGTATACCAAAAATTTGAAAAAGCACTTATCGACAAACTTAACTACCTGGTGG ACAAAAAGAAAGAACCACATAAATTAGGCGGCCTGTTGAACGCCCTGCAACTGACCTCTAAATTTCAGTCCTTCGAG AAAATGGGTAAACAGAATGGGTTTTTGTTCTACGTTCCCGCGTGGAACACATCGAAAATTGATCCAGTTACAGGGTT TGTCAACCTTTTTGATACACGCTATGCAAGCGTGGAAAAAAGTAAAGCCTTCTTCACCAAGTTTCAGTCCATCTGCT ACAATGAAGCCAAAGACTATTTTGAACTGGTCTTTGATTACAACGACTTTACGGAGAAAGCAAAAGAAACCCGTTCC GAGTGGACGCTTTGCACGTATGGGGAACGCATTGTGTCGTTTCGTAACGCTGAGAAGAACCACCAGTGGGACTCTAA GACGATCCACCTTACGACGGAATTCAAAAATCTTTTTGGAGAATTACATGGTAATGACGTTAAAGAGTATATTCTGG AGCAGAATTCGGTTGAATTCTTTAAGAGCCTGATCTATTTGTTGAAGATCACCCTTCAGATGCGCAATTCCATTACA GGTACAGATATTGACTATTTGGTCAGTCCGGTAGCGGACGAAGCGGGGAATTTTTATGATTCCCGCAAAGCAGATAC TAGTCTTCCTAAGGACGCTGATGCAAACGGAGCATATAACATCGCCCGTAAAGGACTTATGTTAATGCATCGTATTC AAAATGCAGAGGATCTTAAGAAAGTGAATCTTGCCATCAGTAATCGCGATTGGTTACGCAACGCACAGGGCCTGGAC AAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacctgtatttccagggagggagtggat ctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgacatcgattacaaggatgacgatgac aag SEQ ID NO: 238 Gly-6xHis-TEV-NLS-ART2_3-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGCTGTCGAACTTCACGAATCAATATCAGCTTAGTAAAACGTTAC GCTTCGAGTTAAAACCAGTTGGTGATACTTTAAAACATATTGAGAAGAGTGGCCTGATTGCACAGGACGAGATTCGC TCTCAGGAGTACCAGGAAGTTAAGACAATCATTGATAAATATCACAAGGCTTTCATTGATGAGGCATTACAAAACGT TGTACTTTCTAACCTGGAAGAGTATGAGGCTTTGTTTTTTGAACGTAACCGCGACGAGAAGGCTTTCGAGAAGCTGC AAGCAGTGTTACGCAAAGAGATCGTCGCGCATTTTAAGCAACACCCGCAGTATAAGACATTGTTCAAGAAAGAATTA ATCAAAGCAGACCTGAAAAATTGGCAGGAGCTTTCTGACGCTGAGAAGGAGCTGGTCAGCCACTTTGACAATTTCAC TACATATTTCACGGGATTCCATGAGAACCGTGCTAACATGTACACGGATGAAGCCAAACATAGTTCTATTGCTTACC GTATCATTCACGAGAATCTGCCAATCTTTTTGACTAACAAAAAGTTGTTCGAGACGATCAAGCAAAAGGCACCGCAC CTGGCGCAAGAGACCCAAGACGCCTTGTTAGAGTATTTGTCCGGAGCCATCGTCGAGGACATGTTTGAATTGTCTTA TTTCAATCATCTTCTTAGTCAAACCCACATCGATTTGTATAATCAAATGATTGGTGGCGTAAAGCAGGATTCGTTAA AAATCCAGGGTCTTAATGAAAAAATCAACCTGTATCGTCAAGCGAACGGATTATCTAAACGCGAACTTCCGAATCTG AAACCACTTCATAAGCAAATCTTGTCTGACCGCGAGACTCTGAGCTGGTTACCCGAGTCGTTCGAGAGCGATGAAGA GTTGATGCAGGGGGTACAGGCATACTTCGAGTCGGAGGTCTTAGCATTTGAGTGCTGCGACGGAAAGGTGAATCTTC TGGAAAAATTACCGGAGTTGCTTCACCAAACTCAGGACTACGACTTTTCCAAAGTCTATTTCAAAAACGACTTGGCT TTGACCGCAGCGAGCCAAGCAATTTTCAAGGATTATCGTATTATCAAGGAGGCACTTTGGGAAGTCAACAAGCCCAA AAAGAGTAAAGACCTGGTCGCTGATGAGGAAAAATTTTTCAATAAGAAGAATAGCTACTTCTCTATTGAGCAAATTG ACGGGGCTCTTAACTCCGCGCAGCTTTCAGCGAACATGATGCATTATTTTCAGTCGGAGTCTACTAAAGTAATCGAG CAGATCCAGTTAACCTACAACGACTGGAAGCGCAACAGTAGTAACAAGGAGTTACTTAAGGCGTTTTTGGATGCCTT ATTATCCTACCAACGTCTGTTAAAGCCCTTAAACGCACCTAACGACCTGGAAAAGGATGTAGCATTCTACGCTTACT TCGATGCTTATTTCACCAGCCTTTGTGGAGTTGTGAAGCTGTACGATAAAGTACGTAATTTTATGACTAAGAAACCG TACAGTTTGGAGAAGTTTAAGCTGAATTTTGAAAACAGCACGCTGTTGGATGGTTGGGACGTCAACAAGGAGTCAGA CAACACCGCCATCTTATTTCGCAAGGAAGGTTTATATTACCTGGGTATTATGAATAAGAAGTACAACAAAGTATTCC GCAACATTAGTTCTAGCCAAGATGAGGGCTATCAAAAGATCGATTACAAACTGTTGCCGGGTGCAAACAAAATGCTT CCAAAGGTCTTTTTCTCTGATAAAAACAAGGAATACTTTAAACCTAATGCTAAACTTTTAGAACGCTACAAAGCCGG CGAGCACAAAAAGGGCGACAACTTCGATTTAGACTTCTGCCACGAGTTGATCGACTTCTTCAAGACGTCTATTGAGA AACACCAAGATTGGAAACATTTCGCATATCAATTTTCGCCTACTGAGAGTTACGAAGATCTGTCCGGTTTCTACCGC GAAGTCGAGCAACAGGGCTACAAAATTAGCTACAAAAATATTGCGGCGTCTTTCATCGACACGCTGGTGGCTGAAGG AAAGCTGTATTTTTTTCAAATCTATAACAAGGACTTCTCTCCATATAGCAAAGGTACCCCGAACATGCATACACTGT ACTGGCGCGCTCTTTTCGACGAAAAGAACCTTGCAGACGTAATCTACAAGCTGAACGGTCAAGCTGAAATTTTTTTC CGTAAGAAGTCAATCGAATACAGCCAAGAAAAATTACAGAAAGGCCACCATCATGAAATGTTGAAAGATAAATTTGC ATACCCAATTATCAAAGATCGTCGCTTCGCTTTCGATAAATTCCAGTTCCATGTTCCCATTACCCTGAACTTTAAGG CGGAGGGGAACGAAAACATTACCCCTAAAACCTTCGAGTACATTCGTTCCAACCCGGACAATATCAAGGTTATCGGC ATCGACCGCGGTGAACGCCATCTGTTATATCTTAGCTTGATCGATGCGGAAGGTAAGATTGTCGAGCAATTCACCCT TAACCAGATCATTAACTCATATAATGGTAAGGACCACGTAATCGACTATCATGCAAAGCTTGACGCCAAGGAGAAGG ATCGCGACAAGGCGCGTAAAGAATGGGGCACAGTTGAGAACATTAAGGAGCTGAAAGAAGGTTACTTAAGTCATGTC ATTCACAAAATTGCAACACTGATCATCGAACATGGTGCCGTGGTCGCAATGGAGGACCTGAATTTTGGATTCAAGCG CGGTCGCTTTAAGGTGGAAAAACAAGTCTATCAAAAATTTGAAAAAGCTTTAATTGATAAACTTAACTACCTTGTTG ACAAGAAAAAGGAGCCTCACAAATTAGGTGGGCTTCTGAATGCGCTGCAATTAACGTCCAAGTTTCAATCCTTCGAA AAAATGGGAAAACAGAATGGTTTTTTATTCTATGTCCCGGCTTGGAACACAAGTAAAATTGATCCTGTTACCGGCTT CGTGAATTTGTTCGATACCCGCTACGCGAGCGTAGAAAAATCTAAAGCATTTTTCACCAAATTTCAGAGTATCTGCT ATAATGAGGCAAAGGATTATTTTGAATTGGTTTTCGACTATAATGATTTTACAGAAAAAGCTAAAGAGACTCGTTCT GAGTGGACCTTGTGTACGTATGGTGAACGTATCGTAAGCTTCCGCAACGCTGAAAAAAATCACCAGTGGGACTCTAA AACGATTCATTTGACAACCGAGTTTAAAAACCTTTTCGGAGAATTGCACGGTAACGACGTTAAGGAATATATCTTAG AACAAAATTCGGTCGAATTTTTCAAGTCCCTTATCTATCTTTTGAAAATCACTCTTCAGATGCGCAATTCGATCACA GGGACCGATATCGATTATCTTGTTTCACCTGTGGCTGACGAAGCAGGCAACTTTTACGACAGCCGCAAGGCCGACAC TAGCTTACCGAAAGACGCAGATGCTAACGGCGCCTACAATATCGCTCGCAAAGGTCTTATGCTTATGCATCGCATTC AAAACGCTGAGGACTTAAAGAAGGTTAATTTAGCGATTTCTAATCGTGACTGGTTGCGTAACGCGCAAGGGCTGGAC AAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacctgtatttccagggagggagtggat ctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgacatcgattacaaggatgacgatgac aag SEQ ID NO: 239 Gly-6xHis-TEV-NLS-ART2_4-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTTGTCTAACTTCACCAACCAGTATCAATTATCGAAAACTCTGC GTTTTGAGCTTAAACCCGTCGGGGATACGCTTAAACATATTGAGAAAAGCGGGCTGATCGCCCAAGACGAAATCCGT AGCCAAGAGTATCAGGAAGTCAAAACCATTATCGATAAGTACCACAAGGCATTCATCGACGAGGCGTTGCAGAACGT TGTACTTTCTAATTTGGAAGAATACGAGGCTCTGTTTTTTGAGCGTAACCGCGACGAAAAGGCGTTCGAGAAGCTGC AAGCAGTGTTGCGTAAAGAAATTGTAGCGCACTTTAAACAACACCCCCAATACAAGACTTTGTTTAAAAAAGAGCTT ATTAAGGCCGATTTAAAAAACTGGCAAGAGCTGTCCGACGCTGAGAAGGAATTGGTGAGTCATTTCGACAACTTTAC AACATATTTCACGGGATTCCACGAAAATCGCGCAAATATGTACACGGATGAAGCTAAGCATAGCAGCATCGCATATC GTATCATTCACGAAAACTTACCGATCTTTCTTACGAACAAAAAACTTTTCGAGACGATTAAGCAAAAGGCCCCCCAC CTTGCCCAGGAGACACAGGATGCGCTTCTTGAGTATTTGTCAGGTGCAATTGTCGAAGACATGTTCGAACTGTCATA TTTTAACCACTTGTTATCCCAAACTCATATCGACCTTTATAATCAGATGATTGGTGGCGTTAAACAAGACAGCTTGA AGATCCAAGGACTGAATGAAAAAATCAATCTTTACCGCCAGGCTAACGGCTTATCAAAGCGCGAATTGCCAAACTTG AAACCCCTGCACAAACAGATTCTGAGTGACCGTGAGACACTGTCTTGGTTACCAGAGAGCTTCGAGTCAGACGAAGA GTTAATGCAGGGTGTGCAGGCCTACTTCGAATCAGAGGTCTTAGCCTTTGAGTGTTGTGATGGTAAAGTGAATCTGC TGGAAAAATTGCCGGAACTGCTTCACCAGACCCAAGATTACGACTTTAGCAAAGTCTATTTTAAAAACGACCTTGCT TTGACGGCAGCCTCCCAGGCGATTTTTAAAGATTATCGTATCATTAAGGAGGCGTTATGGGAGGTGAATAAGCCTAA AAAATCCAAGGATCTGGTTGCAGATGAGGAGAAATTTTTTAATAAGAAGAATAGTTATTTCAGTATCGAGCAGATTG ACGGAGCACTGAATAGTGCTCAATTGTCCGCCAATATGATGCACTATTTTCAATCAGAGTCAACCAAGGTTATTGAA CAGATCCAGTTGACTTATAACGACTGGAAGCGTAACTCATCGAACAAAGAACTTTTAAAAGCATTCTTAGACGCGCT TTTGTCTTACCAACGTCTGCTTAAACCTCTGAATGCGCCTAACGATTTAGAAAAAGATGTTGCATTTTATGCTTACT TCGATGCGTACTTCACGTCTTTGTGTGGAGTTGTAAAACTTTACGATAAAGTACGCAATTTTATGACCAAGAAACCA TATAGCTTGGAAAAATTTAAGTTAAACTTTGAGAACTCCACTCTTTTGGACGGATGGGATGTAAACAAGGAATCGGA TAATACCGCGATTCTTTTTCGTAAGGAAGGACTTTATTATCTGGGCATCATGAATAAGAAGTACAATAAGGTATTCC GTAATATCTCTTCTTCACAAGATGAAGGTTACCAGAAGATTGATTACAAATTACTGCCAGGTGCCAATAAAATGTTG CCGAAAGTTTTTTTTTCGGATAAAAACAAGGAGTATTTCAAACCGAACGCGAAGTTATTAGAGCGCTACAAAGCTGG CGAGCATAAAAAAGGGGACAACTTTGATTTAGACTTCTGCCATGAGTTAATCGACTTCTTCAAGACATCAATTGAAA AACACCAAGACTGGAAGCATTTTGCCTATCAGTTCTCGCCAACCGAGAGTTATGAGGATCTGTCAGGGTTCTATCGC GAGGTTGAACAGCAAGGGTATAAGATCTCTTACAAAAATATCGCAGCCTCTTTTATCGATACTCTTGTCGCGGAAGG AAAGCTGTATTTCTTCCAGATTTATAATAAGGATTTTTCACCGTACTCTAAGGGTACACCTAATATGCACACATTGT ACTGGCGCGCTCTGTTCGATGAGAAAAACCTTGCCGACGTAATCTACAAATTGAATGGGCAAGCAGAGATCTTCTTC CGCAAAAAGTCGATTGAATATTCGCAAGAAAAATTACAAAAAGGTCATCATCACGAGATGCTGAAGGATAAGTTTGC ATACCCGATCATTAAAGATCGTCGCTTTGCTTTCGATAAATTCCAGTTCCACGTGCCAATCACATTGAATTTCAAGG CTGAGGGAAATGAGAATATTACACCTAAAACCTTTGAGTATATCCGTTCTAATCCTGATAACATCAAAGTGATCGGA ATTGACCGTGGGGAACGCCATCTTCTGTACTTATCATTGATTGATGCGGAGGGCAAGATTGTGGAGCAATTTACCTT GAACCAGATTATTAACTCATACAACGGAAAGGATCATGTAATCGATTACCATGCGAAATTAGATGCGAAGGAGAAGG ATCGCGACAAAGCCCGCAAAGAGTGGGGTACAGTTGAAAACATTAAAGAGTTGAAGGAGGGTTATCTGAGCCATGTC ATCCATAAGATCGCTACTTTGATTATTGAGCATGGAGCGGTTGTGGCAATGGAAGATTTGAACTTCGGCTTCAAGCG TGGGCGTTTCAAGGTTGAGAAACAAGTTTATCAGAAATTTGAAAAGGCGCTTATTGATAAGTTAAATTACTTGGTAG ACAAGAAGAAGGAACCCCACAAGCTGGGGGGGTTATTAAATGCTTTGCAACTTACAAGTAAATTCCAGAGCTTCGAG AAAATGGGAAAACAGAACGGGTTTTTGTTCTATGTGCCTGCCTGGAACACGTCAAAGATCGACCCTGTGACCGGGTT CGTAAACCTTTTCGACACTCGTTATGCAAGCGTTGAGAAGAGTAAGGCCTTTTTTACGAAATTTCAGTCGATCTGTT ACAACGAAGCGAAGGACTACTTTGAACTGGTCTTTGACTATAATGACTTTACTGAAAAGGCCAAGGAAACCCGCTCA GAATGGACGTTATGTACATACGGCGAGCGTATTGTGAGCTTTCGTAACGCGGAGAAGAACCATCAATGGGACAGCAA GACCATTCATCTTACAACGGAATTTAAGAATCTGTTTGGAGAGTTACACGGCAACGATGTGAAGGAGTATATCCTTG AGCAGAACTCGGTGGAATTCTTTAAGTCCCTTATCTATTTGCTTAAAATCACTCTGCAGATGCGTAATTCTATTACA GGAACTGATATTGATTACTTAGTGTCGCCGGTAGCTGATGAAGCCGGGAATTTCTATGACAGCCGTAAAGCGGACAC CAGCTTGCCCAAGGATGCGGACGCCAATGGCGCGTATAATATTGCACGCAAAGGACTGATGTTAATGCACCGCATTC AGAACGCAGAGGACCTGAAGAAGGTAAATCTTGCGATCTCCAATCGCGACTGGTTACGTAACGCCCAGGGCCTTGAT AAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCC GAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacctgtatttccagggagggagtggat ctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgacatcgattacaaggatgacgatgac aag SEQ ID NO: 240 Gly-8xHis-3xFlag-TEV-NLS-ART2-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGTTGTCAAATTTTACAAATCAGTACCAA CTTTCAAAAACCTTGCGTTTTGAACTCAAACCTGTAGGTGATACACTTAAGCATATAGAGAAAAGTGGCTTGATAGC ACAAGATGAAATACGCTCACAAGAGTATCAAGAAGTAAAAACGATTATCGATAAATACCACAAAGCTTTTATTGATG AAGCACTTCAAAATGTTGTGCTTAGTAATCTTGAAGAGTACGAAGCACTTTTTTTCGAGAGAAATCGCGATGAAAAA GCTTTTGAAAAATTGCAAGCTGTATTGCGTAAAGAGATAGTTGCACATTTTAAGCAACACCCTCAATACAAAACACT TTTTAAAAAAGAGCTTATTAAAGCTGATTTGAAAAATTGGCAAGAACTAAGCGACGCAGAAAAAGAGCTTGTAAGCC ACTTTGATAACTTCACAACCTACTTTACAGGTTTTCATGAAAATCGTGCCAATATGTACACAGATGAAGCGAAACAC TCTTCTATCGCTTACCGTATTATCCACGAAAATTTGCCTATTTTTTTAACAAATAAAAAACTTTTTGAAACAATCAA GCAAAAAGCACCACACCTTGCACAAGAAACGCAAGATGCCTTGCTTGAATATTTAAGTGGTGCAATAGTTGAAGATA TGTTTGAGCTTAGTTATTTTAACCACCTACTTTCACAGACTCATATCGATCTATACAACCAAATGATTGGCGGAGTC AAACAAGATAGTTTAAAAATTCAGGGTTTAAACGAAAAAATCAATCTCTATCGTCAAGCAAACGGCTTGTCAAAACG TGAACTGCCAAATCTCAAACCACTACACAAACAGATACTTAGTGATCGTGAAACACTCTCTTGGCTTCCTGAATCAT TTGAAAGCGATGAGGAACTTATGCAAGGTGTGCAAGCATATTTTGAGAGTGAAGTATTAGCTTTTGAGTGCTGCGAT GGTAAGGTCAATCTTTTAGAGAAACTGCCTGAGCTTTTGCACCAAACACAAGATTATGATTTTTCAAAAGTTTATTT CAAAAACGATCTAGCACTTACAGCTGCTTCGCAAGCGATTTTTAAAGATTATCGCATTATAAAAGAAGCACTTTGGG AAGTGAATAAACCTAAAAAATCAAAAGATTTAGTGGCGGATGAAGAGAAGTTTTTTAACAAGAAAAATAGCTATTTT AGTATTGAGCAAATAGATGGTGCCTTAAATAGTGCGCAACTCTCCGCTAACATGATGCACTATTTCCAAAGTGAATC TACAAAGGTAATCGAGCAAATTCAATTGACTTACAATGATTGGAAGCGAAACAGTTCAAATAAAGAACTTCTAAAAG CTTTTTTAGACGCGCTTTTATCGTATCAACGTCTTTTAAAACCGCTTAATGCTCCAAACGATCTTGAAAAAGATGTT GCTTTTTATGCCTACTTCGATGCTTATTTTACGAGTTTATGCGGTGTAGTCAAGCTTTACGACAAAGTAAGAAACTT TATGACCAAAAAGCCGTATTCACTTGAAAAATTTAAACTCAATTTTGAAAACTCGACACTACTTGATGGTTGGGATG TCAATAAAGAGTCTGATAATACGGCAATTTTATTTCGCAAAGAGGGCTTGTATTATCTAGGTATTATGAATAAAAAG TATAACAAAGTATTTCGCAATATTTCTAGTTCACAAGATGAGGGTTACCAAAAAATTGACTATAAACTATTACCAGG TGCGAATAAAATGCTTCCAAAAGTCTTTTTTTCTGATAAGAATAAGGAATATTTTAAGCCAAATGCTAAGTTACTTG AGAGATATAAAGCGGGAGAGCATAAAAAAGGGGATAATTTCGACTTAGATTTTTGTCACGAATTAATAGACTTTTTT AAAACTTCAATCGAAAAACATCAAGATTGGAAACATTTTGCTTATCAGTTTTCACCGACTGAGAGTTACGAAGATTT AAGCGGTTTTTATAGAGAGGTTGAACAGCAAGGTTATAAAATCAGTTATAAAAATATTGCAGCAAGTTTTATCGATA CATTAGTTGCAGAAGGTAAACTCTATTTTTTCCAGATCTACAACAAAGACTTTTCTCCCTATAGTAAAGGTACGCCA AATATGCACACTCTTTATTGGCGTGCACTTTTTGACGAAAAGAATCTAGCTGATGTGATCTACAAACTTAACGGGCA AGCGGAGATATTTTTCCGTAAAAAATCGATCGAGTACTCCCAAGAGAAGCTGCAAAAAGGGCATCACCACGAAATGC TTAAAGATAAGTTTGCTTATCCAATTATCAAAGATCGTCGTTTTGCTTTTGATAAGTTCCAGTTTCATGTACCAATA ACGCTCAACTTTAAAGCAGAGGGTAATGAAAACATTACGCCAAAAACATTTGAATACATTCGATCTAATCCCGACAA CATAAAAGTTATAGGTATAGATCGTGGTGAGCGTCACTTACTCTATCTTTCACTCATTGATGCAGAGGGTAAGATCG TAGAGCAGTTTACGCTCAATCAAATTATTAATAGCTACAACGGGAAAGACCACGTCATAGATTATCATGCCAAACTT GACGCAAAAGAAAAAGACCGCGACAAAGCTCGAAAAGAGTGGGGAACTGTCGAAAACATCAAAGAACTAAAAGAGGG CTATTTAAGCCATGTTATCCATAAGATAGCAACTCTTATCATTGAACACGGTGCAGTTGTAGCGATGGAAGATCTCA ACTTTGGCTTTAAACGTGGACGTTTCAAAGTTGAAAAGCAAGTCTATCAAAAATTTGAAAAAGCACTTATCGATAAG CTGAACTATCTTGTCGATAAGAAAAAAGAGCCTCATAAACTTGGAGGTCTTTTAAATGCGTTGCAACTCACTAGCAA GTTTCAAAGTTTTGAAAAAATGGGTAAACAAAACGGCTTTTTGTTTTATGTACCTGCGTGGAATACATCCAAAATAG ATCCTGTTACGGGTTTTGTTAATCTTTTTGATACCCGTTATGCAAGTGTAGAAAAATCCAAAGCATTTTTTACTAAG TTTCAATCAATTTGCTACAACGAAGCTAAAGATTACTTCGAGTTAGTATTTGATTATAATGATTTCACAGAAAAAGC TAAAGAAACTCGAAGCGAGTGGACACTTTGTACTTATGGTGAACGCATTGTGAGCTTTAGAAACGCGGAGAAAAATC ATCAATGGGATAGCAAAACAATTCATCTTACAACAGAGTTTAAAAACCTTTTTGGTGAGCTGCATGGTAATGATGTA AAAGAGTATATTTTAGAGCAAAATTCAGTTGAGTTTTTTAAGTCACTTATCTATTTATTAAAAATTACTTTGCAGAT GCGTAACTCAATCACGGGTACTGATATAGACTATCTTGTCTCACCCGTCGCAGATGAAGCAGGGAATTTTTACGACA GTCGTAAAGCCGATACATCTTTACCAAAAGATGCCGACGCAAACGGTGCGTATAATATCGCTCGTAAAGGTTTAATG TTGATGCATCGCATCCAAAACGCCGAAGATCTCAAAAAAGTGAACTTGGCGATTTCAAACCGTGACTGGCTCCGCAA CGCTCAAGGACTGGATAAAAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTA GCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 241 Gly-8xHis-3xFlag-TEV-NLS-ART2_1-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGCTGAGTAACTTTACCAACCAGTATCAG TTATCCAAGACCTTACGTTTCGAATTGAAGCCGGTCGGGGATACGTTGAAACACATCGAGAAGAGTGGGTTGATCGC CCAAGACGAAATCCGTTCCCAAGAGTACCAAGAGGTTAAAACAATCATCGACAAGTACCACAAAGCCTTTATCGACG AAGCTTTACAAAATGTGGTGTTATCCAATCTTGAGGAATACGAAGCTCTTTTCTTCGAACGTAATCGTGACGAGAAG GCGTTCGAGAAATTGCAAGCTGTATTGCGCAAAGAAATTGTAGCACATTTTAAACAACATCCCCAATATAAGACCCT TTTTAAGAAGGAGTTAATCAAAGCTGACCTGAAAAATTGGCAAGAACTGAGCGATGCCGAGAAAGAGTTGGTCTCGC ACTTTGATAACTTTACTACATACTTCACGGGTTTCCACGAGAATCGCGCCAATATGTACACGGACGAGGCGAAGCAC AGCAGTATCGCCTACCGTATTATTCACGAAAATCTTCCAATCTTTCTTACTAACAAGAAACTGTTCGAAACCATTAA GCAGAAAGCTCCACATTTAGCCCAGGAAACGCAGGATGCATTATTGGAGTATTTATCCGGAGCCATCGTGGAAGATA TGTTTGAACTTAGTTATTTCAACCACTTGCTGAGTCAGACGCATATTGATCTGTATAATCAGATGATTGGTGGAGTT AAGCAGGATAGTTTAAAGATTCAGGGTCTGAATGAGAAGATTAATCTTTACCGTCAAGCGAATGGGCTTTCGAAACG TGAATTGCCGAATCTTAAACCGCTGCATAAACAAATTCTGTCGGATCGTGAGACATTATCTTGGCTTCCGGAATCTT TCGAGAGTGACGAGGAGCTGATGCAAGGGGTCCAGGCATATTTCGAATCTGAAGTTCTTGCCTTTGAATGTTGCGAT GGGAAGGTTAACTTATTAGAGAAACTGCCGGAGTTGTTACACCAAACACAGGATTATGATTTTAGTAAAGTTTACTT CAAGAACGATTTAGCATTGACCGCTGCATCACAGGCAATCTTTAAAGACTATCGTATCATTAAGGAGGCGTTGTGGG AGGTTAATAAGCCGAAAAAATCTAAAGACTTAGTCGCTGACGAGGAAAAATTCTTTAATAAGAAGAACTCCTACTTC TCTATTGAGCAGATTGATGGAGCGTTGAACTCGGCGCAGCTGAGCGCTAACATGATGCACTATTTTCAGAGTGAATC TACAAAGGTTATTGAACAAATCCAATTGACTTATAACGACTGGAAGCGTAACAGTAGCAACAAGGAATTGCTTAAGG CATTCCTTGACGCACTGCTTTCTTATCAGCGTCTTTTAAAGCCTTTAAATGCCCCTAATGACCTTGAGAAGGATGTG GCATTCTATGCCTACTTTGACGCCTACTTTACAAGCCTGTGTGGTGTCGTTAAACTGTACGACAAGGTACGTAATTT CATGACCAAGAAGCCGTATTCGTTAGAGAAATTTAAGTTGAATTTTGAAAACTCGACGCTTTTAGACGGTTGGGATG TCAATAAAGAATCCGACAACACTGCTATTTTATTTCGTAAGGAGGGGTTGTACTATCTGGGTATTATGAATAAAAAG TACAATAAGGTCTTTCGTAATATTTCATCATCCCAAGACGAGGGCTATCAAAAAATCGACTATAAATTACTTCCAGG GGCCAATAAGATGCTGCCAAAAGTGTTTTTCAGTGATAAGAATAAGGAGTATTTCAAGCCAAACGCCAAGCTGTTGG AACGTTACAAAGCCGGTGAGCACAAAAAAGGGGATAACTTTGATCTTGACTTCTGTCACGAATTGATCGACTTTTTC AAGACAAGCATCGAAAAGCACCAAGACTGGAAACACTTCGCCTACCAGTTTAGTCCCACCGAATCGTACGAGGACCT TTCAGGTTTTTACCGTGAGGTGGAACAACAGGGGTACAAAATCAGTTACAAAAATATCGCTGCTAGCTTTATCGATA CGCTGGTGGCAGAGGGTAAACTGTATTTTTTCCAGATTTACAACAAGGATTTCAGTCCATACTCGAAGGGAACTCCC AACATGCACACCTTATATTGGCGTGCCTTGTTCGACGAGAAGAACTTAGCGGATGTAATTTATAAGTTGAACGGTCA GGCCGAAATTTTTTTTCGTAAAAAGAGCATCGAATATTCGCAGGAAAAGTTACAAAAGGGGCACCACCATGAGATGT TAAAGGATAAGTTTGCGTACCCAATTATCAAGGATCGCCGCTTTGCCTTTGACAAGTTCCAGTTTCACGTGCCTATT ACACTGAATTTTAAAGCGGAGGGCAATGAGAATATCACTCCTAAGACGTTTGAATATATTCGCTCGAATCCTGATAA CATTAAGGTGATTGGGATTGATCGCGGCGAGCGCCACTTACTTTACCTGAGTTTAATCGACGCGGAAGGTAAGATTG TTGAACAGTTTACATTAAACCAAATTATCAATAGCTACAATGGGAAAGACCATGTGATTGACTATCATGCCAAATTG GATGCAAAGGAAAAAGATCGCGATAAGGCTCGCAAGGAATGGGGGACTGTGGAAAATATCAAGGAATTGAAAGAAGG TTATTTAAGTCATGTAATCCATAAAATCGCAACCCTTATTATCGAGCATGGCGCTGTTGTAGCAATGGAAGACCTTA ATTTTGGCTTCAAGCGCGGGCGTTTCAAAGTGGAGAAGCAGGTGTATCAGAAATTTGAGAAAGCTTTAATTGATAAA TTGAATTATTTGGTTGATAAGAAAAAAGAGCCGCATAAGTTAGGTGGCTTGTTGAATGCTTTGCAATTAACGTCAAA ATTTCAGTCTTTCGAAAAGATGGGAAAACAGAACGGTTTCCTTTTCTATGTGCCAGCCTGGAACACATCAAAAATTG ACCCCGTCACTGGGTTTGTAAACCTGTTTGATACTCGCTATGCAAGCGTTGAAAAAAGTAAAGCTTTCTTCACGAAG TTCCAGTCAATTTGCTACAATGAGGCCAAGGACTACTTTGAGTTGGTGTTCGACTACAATGACTTTACAGAGAAGGC TAAAGAAACACGTTCAGAGTGGACCTTATGTACATATGGGGAGCGCATCGTGTCTTTTCGCAATGCCGAAAAAAACC ACCAGTGGGACTCCAAAACGATTCATTTGACCACTGAATTTAAGAATTTATTTGGGGAATTGCATGGGAATGATGTA AAAGAGTATATTCTGGAACAAAATTCTGTTGAATTTTTCAAATCACTGATTTATCTTCTTAAGATTACTCTTCAGAT GCGCAATTCTATCACGGGCACCGACATTGACTACTTAGTCTCTCCGGTCGCAGATGAAGCTGGGAATTTCTATGACT CCCGTAAGGCGGACACAAGTCTTCCGAAAGACGCTGATGCGAACGGTGCATACAATATCGCGCGCAAAGGACTGATG CTGATGCACCGTATCCAGAACGCGGAGGACTTGAAGAAGGTAAATTTGGCCATCTCAAATCGTGATTGGTTGCGCAA TGCCCAAGGTTTAGATAAAAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTA GCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 242 Gly-8xHis-3xFlag-TEV-NLS-ART2_2-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGTTGTCCAATTTTACTAATCAGTACCAG CTTAGCAAAACACTTCGCTTCGAGTTAAAGCCTGTTGGTGACACGCTTAAACACATTGAAAAGTCGGGACTGATCGC ACAGGATGAGATTCGCTCACAGGAATATCAGGAGGTAAAGACCATTATCGACAAGTATCATAAAGCCTTCATTGATG AAGCATTGCAGAATGTTGTGCTGTCAAACCTGGAAGAATATGAAGCGTTATTTTTCGAACGTAACCGCGACGAAAAG GCGTTTGAGAAACTTCAAGCCGTACTGCGTAAGGAGATCGTGGCCCACTTTAAGCAGCACCCTCAGTATAAAACACT GTTCAAAAAGGAGTTGATTAAAGCTGATCTGAAGAACTGGCAGGAGTTATCGGATGCAGAGAAAGAGCTTGTAAGCC ATTTTGACAACTTCACCACGTATTTCACCGGCTTTCATGAAAACCGTGCGAATATGTATACCGATGAAGCAAAACAT TCTTCAATTGCTTACCGCATCATCCATGAAAACCTTCCAATTTTTCTTACAAACAAGAAACTTTTTGAAACAATTAA ACAAAAGGCGCCGCACCTGGCGCAAGAAACCCAGGATGCCCTGTTAGAGTATTTATCAGGCGCTATTGTAGAAGATA TGTTTGAGCTGAGTTATTTTAACCACTTGCTGAGTCAAACGCATATCGACCTTTATAATCAAATGATTGGGGGCGTG AAACAGGATTCGTTAAAAATCCAAGGACTTAACGAGAAGATCAATTTGTACCGCCAGGCGAACGGGCTGTCAAAACG CGAGTTGCCAAATTTGAAACCGTTGCATAAACAGATTTTATCCGACCGCGAGACGTTGTCGTGGTTACCCGAATCCT TTGAGTCCGACGAAGAATTGATGCAAGGTGTTCAAGCTTATTTTGAATCGGAGGTCCTGGCCTTTGAATGCTGCGAT GGGAAGGTAAACCTGTTGGAGAAGTTGCCAGAACTTCTGCACCAAACCCAGGACTATGATTTCAGCAAGGTATACTT CAAAAACGACCTGGCGTTAACTGCTGCCTCTCAGGCCATTTTCAAAGATTACCGCATTATTAAGGAGGCCCTGTGGG AGGTGAACAAACCAAAAAAGAGTAAGGATTTGGTAGCAGATGAGGAAAAATTCTTCAATAAGAAAAATAGTTATTTC AGCATCGAACAAATTGACGGTGCCTTAAACTCAGCCCAATTGTCGGCTAATATGATGCATTATTTTCAGTCGGAGTC AACGAAAGTCATCGAACAGATTCAGCTGACCTATAATGATTGGAAGCGCAACTCATCTAATAAGGAATTGCTGAAGG CCTTCCTGGATGCGTTACTGTCGTACCAGCGCCTTCTTAAGCCGTTAAACGCCCCGAATGACTTAGAGAAGGATGTA GCGTTCTACGCCTATTTCGACGCGTATTTCACATCTCTTTGTGGGGTTGTGAAGTTATATGATAAAGTCCGTAACTT TATGACCAAGAAACCATATTCACTGGAAAAGTTCAAGCTGAATTTTGAGAATTCGACGTTGTTAGATGGCTGGGATG TGAACAAGGAGTCTGACAACACAGCTATTTTATTTCGCAAAGAGGGTCTTTACTATCTTGGAATCATGAATAAGAAG TATAACAAGGTCTTTCGCAACATCAGTTCCAGTCAGGACGAGGGATACCAGAAGATCGATTACAAATTGTTACCAGG AGCTAATAAGATGTTGCCCAAAGTGTTTTTCTCGGATAAGAACAAAGAATACTTCAAGCCTAACGCCAAACTGTTGG AACGCTATAAGGCGGGAGAACATAAGAAAGGTGATAATTTTGACTTAGATTTTTGTCATGAGCTTATCGACTTTTTC AAGACATCGATTGAAAAACATCAGGATTGGAAGCATTTTGCCTACCAGTTCTCCCCCACAGAGTCGTACGAGGACCT GAGTGGGTTCTATCGCGAAGTTGAACAACAAGGATATAAAATTTCCTACAAAAATATCGCGGCGAGCTTTATCGATA CACTGGTCGCGGAGGGGAAACTTTATTTCTTCCAGATCTATAACAAAGACTTCTCACCATATTCTAAGGGCACTCCG AATATGCACACCTTGTATTGGCGCGCACTGTTCGATGAGAAGAACTTGGCTGATGTGATCTATAAACTGAATGGTCA GGCGGAAATTTTCTTTCGCAAAAAATCCATCGAATATTCGCAGGAAAAGCTTCAGAAAGGTCACCACCATGAAATGT TGAAGGATAAGTTCGCCTACCCCATTATTAAGGATCGTCGTTTTGCTTTCGACAAATTCCAATTCCACGTGCCAATC ACATTGAATTTTAAAGCTGAGGGCAATGAGAACATCACGCCAAAAACGTTTGAGTATATCCGCTCAAATCCAGATAA CATCAAGGTGATCGGGATCGATCGTGGAGAGCGTCACCTTCTGTATTTGTCGTTGATCGACGCGGAGGGCAAGATCG TGGAGCAATTTACGCTTAACCAGATTATTAATAGCTATAATGGTAAGGACCACGTCATTGATTACCATGCCAAGCTG GATGCTAAGGAGAAGGACCGCGACAAGGCGCGCAAGGAATGGGGAACAGTCGAGAATATCAAAGAGCTGAAAGAGGG GTACTTATCTCATGTCATTCACAAAATCGCCACGTTAATTATCGAGCATGGGGCCGTGGTAGCAATGGAGGATCTGA ACTTTGGCTTCAAACGTGGTCGCTTTAAAGTGGAGAAGCAGGTATACCAAAAATTTGAAAAAGCACTTATCGACAAA CTTAACTACCTGGTGGACAAAAAGAAAGAACCACATAAATTAGGCGGCCTGTTGAACGCCCTGCAACTGACCTCTAA ATTTCAGTCCTTCGAGAAAATGGGTAAACAGAATGGGTTTTTGTTCTACGTTCCCGCGTGGAACACATCGAAAATTG ATCCAGTTACAGGGTTTGTCAACCTTTTTGATACACGCTATGCAAGCGTGGAAAAAAGTAAAGCCTTCTTCACCAAG TTTCAGTCCATCTGCTACAATGAAGCCAAAGACTATTTTGAACTGGTCTTTGATTACAACGACTTTACGGAGAAAGC AAAAGAAACCCGTTCCGAGTGGACGCTTTGCACGTATGGGGAACGCATTGTGTCGTTTCGTAACGCTGAGAAGAACC ACCAGTGGGACTCTAAGACGATCCACCTTACGACGGAATTCAAAAATCTTTTTGGAGAATTACATGGTAATGACGTT AAAGAGTATATTCTGGAGCAGAATTCGGTTGAATTCTTTAAGAGCCTGATCTATTTGTTGAAGATCACCCTTCAGAT GCGCAATTCCATTACAGGTACAGATATTGACTATTTGGTCAGTCCGGTAGCGGACGAAGCGGGGAATTTTTATGATT CCCGCAAAGCAGATACTAGTCTTCCTAAGGACGCTGATGCAAACGGAGCATATAACATCGCCCGTAAAGGACTTATG TTAATGCATCGTATTCAAAATGCAGAGGATCTTAAGAAAGTGAATCTTGCCATCAGTAATCGCGATTGGTTACGCAA CGCACAGGGCCTGGACAAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTA GCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 243 Gly-8xHis-3xFlag-TEV-NLS-ART2_3-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGCTGTCGAACTTCACGAATCAATATCAG CTTAGTAAAACGTTACGCTTCGAGTTAAAACCAGTTGGTGATACTTTAAAACATATTGAGAAGAGTGGCCTGATTGC ACAGGACGAGATTCGCTCTCAGGAGTACCAGGAAGTTAAGACAATCATTGATAAATATCACAAGGCTTTCATTGATG AGGCATTACAAAACGTTGTACTTTCTAACCTGGAAGAGTATGAGGCTTTGTTTTTTGAACGTAACCGCGACGAGAAG GCTTTCGAGAAGCTGCAAGCAGTGTTACGCAAAGAGATCGTCGCGCATTTTAAGCAACACCCGCAGTATAAGACATT GTTCAAGAAAGAATTAATCAAAGCAGACCTGAAAAATTGGCAGGAGCTTTCTGACGCTGAGAAGGAGCTGGTCAGCC ACTTTGACAATTTCACTACATATTTCACGGGATTCCATGAGAACCGTGCTAACATGTACACGGATGAAGCCAAACAT AGTTCTATTGCTTACCGTATCATTCACGAGAATCTGCCAATCTTTTTGACTAACAAAAAGTTGTTCGAGACGATCAA GCAAAAGGCACCGCACCTGGCGCAAGAGACCCAAGACGCCTTGTTAGAGTATTTGTCCGGAGCCATCGTCGAGGACA TGTTTGAATTGTCTTATTTCAATCATCTTCTTAGTCAAACCCACATCGATTTGTATAATCAAATGATTGGTGGCGTA AAGCAGGATTCGTTAAAAATCCAGGGTCTTAATGAAAAAATCAACCTGTATCGTCAAGCGAACGGATTATCTAAACG CGAACTTCCGAATCTGAAACCACTTCATAAGCAAATCTTGTCTGACCGCGAGACTCTGAGCTGGTTACCCGAGTCGT TCGAGAGCGATGAAGAGTTGATGCAGGGGGTACAGGCATACTTCGAGTCGGAGGTCTTAGCATTTGAGTGCTGCGAC GGAAAGGTGAATCTTCTGGAAAAATTACCGGAGTTGCTTCACCAAACTCAGGACTACGACTTTTCCAAAGTCTATTT CAAAAACGACTTGGCTTTGACCGCAGCGAGCCAAGCAATTTTCAAGGATTATCGTATTATCAAGGAGGCACTTTGGG AAGTCAACAAGCCCAAAAAGAGTAAAGACCTGGTCGCTGATGAGGAAAAATTTTTCAATAAGAAGAATAGCTACTTC TCTATTGAGCAAATTGACGGGGCTCTTAACTCCGCGCAGCTTTCAGCGAACATGATGCATTATTTTCAGTCGGAGTC TACTAAAGTAATCGAGCAGATCCAGTTAACCTACAACGACTGGAAGCGCAACAGTAGTAACAAGGAGTTACTTAAGG CGTTTTTGGATGCCTTATTATCCTACCAACGTCTGTTAAAGCCCTTAAACGCACCTAACGACCTGGAAAAGGATGTA GCATTCTACGCTTACTTCGATGCTTATTTCACCAGCCTTTGTGGAGTTGTGAAGCTGTACGATAAAGTACGTAATTT TATGACTAAGAAACCGTACAGTTTGGAGAAGTTTAAGCTGAATTTTGAAAACAGCACGCTGTTGGATGGTTGGGACG TCAACAAGGAGTCAGACAACACCGCCATCTTATTTCGCAAGGAAGGTTTATATTACCTGGGTATTATGAATAAGAAG TACAACAAAGTATTCCGCAACATTAGTTCTAGCCAAGATGAGGGCTATCAAAAGATCGATTACAAACTGTTGCCGGG TGCAAACAAAATGCTTCCAAAGGTCTTTTTCTCTGATAAAAACAAGGAATACTTTAAACCTAATGCTAAACTTTTAG AACGCTACAAAGCCGGCGAGCACAAAAAGGGCGACAACTTCGATTTAGACTTCTGCCACGAGTTGATCGACTTCTTC AAGACGTCTATTGAGAAACACCAAGATTGGAAACATTTCGCATATCAATTTTCGCCTACTGAGAGTTACGAAGATCT GTCCGGTTTCTACCGCGAAGTCGAGCAACAGGGCTACAAAATTAGCTACAAAAATATTGCGGCGTCTTTCATCGACA CGCTGGTGGCTGAAGGAAAGCTGTATTTTTTTCAAATCTATAACAAGGACTTCTCTCCATATAGCAAAGGTACCCCG AACATGCATACACTGTACTGGCGCGCTCTTTTCGACGAAAAGAACCTTGCAGACGTAATCTACAAGCTGAACGGTCA AGCTGAAATTTTTTTCCGTAAGAAGTCAATCGAATACAGCCAAGAAAAATTACAGAAAGGCCACCATCATGAAATGT TGAAAGATAAATTTGCATACCCAATTATCAAAGATCGTCGCTTCGCTTTCGATAAATTCCAGTTCCATGTTCCCATT ACCCTGAACTTTAAGGCGGAGGGGAACGAAAACATTACCCCTAAAACCTTCGAGTACATTCGTTCCAACCCGGACAA TATCAAGGTTATCGGCATCGACCGCGGTGAACGCCATCTGTTATATCTTAGCTTGATCGATGCGGAAGGTAAGATTG TCGAGCAATTCACCCTTAACCAGATCATTAACTCATATAATGGTAAGGACCACGTAATCGACTATCATGCAAAGCTT GACGCCAAGGAGAAGGATCGCGACAAGGCGCGTAAAGAATGGGGCACAGTTGAGAACATTAAGGAGCTGAAAGAAGG TTACTTAAGTCATGTCATTCACAAAATTGCAACACTGATCATCGAACATGGTGCCGTGGTCGCAATGGAGGACCTGA ATTTTGGATTCAAGCGCGGTCGCTTTAAGGTGGAAAAACAAGTCTATCAAAAATTTGAAAAAGCTTTAATTGATAAA CTTAACTACCTTGTTGACAAGAAAAAGGAGCCTCACAAATTAGGTGGGCTTCTGAATGCGCTGCAATTAACGTCCAA GTTTCAATCCTTCGAAAAAATGGGAAAACAGAATGGTTTTTTATTCTATGTCCCGGCTTGGAACACAAGTAAAATTG ATCCTGTTACCGGCTTCGTGAATTTGTTCGATACCCGCTACGCGAGCGTAGAAAAATCTAAAGCATTTTTCACCAAA TTTCAGAGTATCTGCTATAATGAGGCAAAGGATTATTTTGAATTGGTTTTCGACTATAATGATTTTACAGAAAAAGC TAAAGAGACTCGTTCTGAGTGGACCTTGTGTACGTATGGTGAACGTATCGTAAGCTTCCGCAACGCTGAAAAAAATC ACCAGTGGGACTCTAAAACGATTCATTTGACAACCGAGTTTAAAAACCTTTTCGGAGAATTGCACGGTAACGACGTT AAGGAATATATCTTAGAACAAAATTCGGTCGAATTTTTCAAGTCCCTTATCTATCTTTTGAAAATCACTCTTCAGAT GCGCAATTCGATCACAGGGACCGATATCGATTATCTTGTTTCACCTGTGGCTGACGAAGCAGGCAACTTTTACGACA GCCGCAAGGCCGACACTAGCTTACCGAAAGACGCAGATGCTAACGGCGCCTACAATATCGCTCGCAAAGGTCTTATG CTTATGCATCGCATTCAAAACGCTGAGGACTTAAAGAAGGTTAATTTAGCGATTTCTAATCGTGACTGGTTGCGTAA CGCGCAAGGGCTGGACAAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTA GCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 244 Gly-8xHis-3xFlag-TEV-NLS-ART2_4-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGTTGTCTAACTTCACCAACCAGTATCAA TTATCGAAAACTCTGCGTTTTGAGCTTAAACCCGTCGGGGATACGCTTAAACATATTGAGAAAAGCGGGCTGATCGC CCAAGACGAAATCCGTAGCCAAGAGTATCAGGAAGTCAAAACCATTATCGATAAGTACCACAAGGCATTCATCGACG AGGCGTTGCAGAACGTTGTACTTTCTAATTTGGAAGAATACGAGGCTCTGTTTTTTGAGCGTAACCGCGACGAAAAG GCGTTCGAGAAGCTGCAAGCAGTGTTGCGTAAAGAAATTGTAGCGCACTTTAAACAACACCCCCAATACAAGACTTT GTTTAAAAAAGAGCTTATTAAGGCCGATTTAAAAAACTGGCAAGAGCTGTCCGACGCTGAGAAGGAATTGGTGAGTC ATTTCGACAACTTTACAACATATTTCACGGGATTCCACGAAAATCGCGCAAATATGTACACGGATGAAGCTAAGCAT AGCAGCATCGCATATCGTATCATTCACGAAAACTTACCGATCTTTCTTACGAACAAAAAACTTTTCGAGACGATTAA GCAAAAGGCCCCCCACCTTGCCCAGGAGACACAGGATGCGCTTCTTGAGTATTTGTCAGGTGCAATTGTCGAAGACA TGTTCGAACTGTCATATTTTAACCACTTGTTATCCCAAACTCATATCGACCTTTATAATCAGATGATTGGTGGCGTT AAACAAGACAGCTTGAAGATCCAAGGACTGAATGAAAAAATCAATCTTTACCGCCAGGCTAACGGCTTATCAAAGCG CGAATTGCCAAACTTGAAACCCCTGCACAAACAGATTCTGAGTGACCGTGAGACACTGTCTTGGTTACCAGAGAGCT TCGAGTCAGACGAAGAGTTAATGCAGGGTGTGCAGGCCTACTTCGAATCAGAGGTCTTAGCCTTTGAGTGTTGTGAT GGTAAAGTGAATCTGCTGGAAAAATTGCCGGAACTGCTTCACCAGACCCAAGATTACGACTTTAGCAAAGTCTATTT TAAAAACGACCTTGCTTTGACGGCAGCCTCCCAGGCGATTTTTAAAGATTATCGTATCATTAAGGAGGCGTTATGGG AGGTGAATAAGCCTAAAAAATCCAAGGATCTGGTTGCAGATGAGGAGAAATTTTTTAATAAGAAGAATAGTTATTTC AGTATCGAGCAGATTGACGGAGCACTGAATAGTGCTCAATTGTCCGCCAATATGATGCACTATTTTCAATCAGAGTC AACCAAGGTTATTGAACAGATCCAGTTGACTTATAACGACTGGAAGCGTAACTCATCGAACAAAGAACTTTTAAAAG CATTCTTAGACGCGCTTTTGTCTTACCAACGTCTGCTTAAACCTCTGAATGCGCCTAACGATTTAGAAAAAGATGTT GCATTTTATGCTTACTTCGATGCGTACTTCACGTCTTTGTGTGGAGTTGTAAAACTTTACGATAAAGTACGCAATTT TATGACCAAGAAACCATATAGCTTGGAAAAATTTAAGTTAAACTTTGAGAACTCCACTCTTTTGGACGGATGGGATG TAAACAAGGAATCGGATAATACCGCGATTCTTTTTCGTAAGGAAGGACTTTATTATCTGGGCATCATGAATAAGAAG TACAATAAGGTATTCCGTAATATCTCTTCTTCACAAGATGAAGGTTACCAGAAGATTGATTACAAATTACTGCCAGG TGCCAATAAAATGTTGCCGAAAGTTTTTTTTTCGGATAAAAACAAGGAGTATTTCAAACCGAACGCGAAGTTATTAG AGCGCTACAAAGCTGGCGAGCATAAAAAAGGGGACAACTTTGATTTAGACTTCTGCCATGAGTTAATCGACTTCTTC AAGACATCAATTGAAAAACACCAAGACTGGAAGCATTTTGCCTATCAGTTCTCGCCAACCGAGAGTTATGAGGATCT GTCAGGGTTCTATCGCGAGGTTGAACAGCAAGGGTATAAGATCTCTTACAAAAATATCGCAGCCTCTTTTATCGATA CTCTTGTCGCGGAAGGAAAGCTGTATTTCTTCCAGATTTATAATAAGGATTTTTCACCGTACTCTAAGGGTACACCT AATATGCACACATTGTACTGGCGCGCTCTGTTCGATGAGAAAAACCTTGCCGACGTAATCTACAAATTGAATGGGCA AGCAGAGATCTTCTTCCGCAAAAAGTCGATTGAATATTCGCAAGAAAAATTACAAAAAGGTCATCATCACGAGATGC TGAAGGATAAGTTTGCATACCCGATCATTAAAGATCGTCGCTTTGCTTTCGATAAATTCCAGTTCCACGTGCCAATC ACATTGAATTTCAAGGCTGAGGGAAATGAGAATATTACACCTAAAACCTTTGAGTATATCCGTTCTAATCCTGATAA CATCAAAGTGATCGGAATTGACCGTGGGGAACGCCATCTTCTGTACTTATCATTGATTGATGCGGAGGGCAAGATTG TGGAGCAATTTACCTTGAACCAGATTATTAACTCATACAACGGAAAGGATCATGTAATCGATTACCATGCGAAATTA GATGCGAAGGAGAAGGATCGCGACAAAGCCCGCAAAGAGTGGGGTACAGTTGAAAACATTAAAGAGTTGAAGGAGGG TTATCTGAGCCATGTCATCCATAAGATCGCTACTTTGATTATTGAGCATGGAGCGGTTGTGGCAATGGAAGATTTGA ACTTCGGCTTCAAGCGTGGGCGTTTCAAGGTTGAGAAACAAGTTTATCAGAAATTTGAAAAGGCGCTTATTGATAAG TTAAATTACTTGGTAGACAAGAAGAAGGAACCCCACAAGCTGGGGGGGTTATTAAATGCTTTGCAACTTACAAGTAA ATTCCAGAGCTTCGAGAAAATGGGAAAACAGAACGGGTTTTTGTTCTATGTGCCTGCCTGGAACACGTCAAAGATCG ACCCTGTGACCGGGTTCGTAAACCTTTTCGACACTCGTTATGCAAGCGTTGAGAAGAGTAAGGCCTTTTTTACGAAA TTTCAGTCGATCTGTTACAACGAAGCGAAGGACTACTTTGAACTGGTCTTTGACTATAATGACTTTACTGAAAAGGC CAAGGAAACCCGCTCAGAATGGACGTTATGTACATACGGCGAGCGTATTGTGAGCTTTCGTAACGCGGAGAAGAACC ATCAATGGGACAGCAAGACCATTCATCTTACAACGGAATTTAAGAATCTGTTTGGAGAGTTACACGGCAACGATGTG AAGGAGTATATCCTTGAGCAGAACTCGGTGGAATTCTTTAAGTCCCTTATCTATTTGCTTAAAATCACTCTGCAGAT GCGTAATTCTATTACAGGAACTGATATTGATTACTTAGTGTCGCCGGTAGCTGATGAAGCCGGGAATTTCTATGACA GCCGTAAAGCGGACACCAGCTTGCCCAAGGATGCGGACGCCAATGGCGCGTATAATATTGCACGCAAAGGACTGATG TTAATGCACCGCATTCAGAACGCAGAGGACCTGAAGAAGGTAAATCTTGCGATCTCCAATCGCGACTGGTTACGTAA CGCCCAGGGCCTTGATAAGAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGCGTCAGGTA GCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGGGCTAA SEQ ID NO: 245 Gly-6xHis-TEV-NLS-ART11-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTATTATCAGGGTTTAACAAAGCTATATCCAATTAGTAAAACTA TTAGAAACGAATTAATTCCTGTAGGAAAGACTTTAGAACATATTAGAATGAATAATATTCTTGAGGCTGATATTCAG AGAAAATCAGATTATGAACGTGTAAAGAAGCTAATGGATGACTATCATAAGCAATTAATAAATGAGTCTTTGCAAGA TGTCCATTTGTCTTATGTTGAGGAGGCAGCTGATCTATATCTAAATGCTTCTAAGGATAAAGATATTGTAGATAAGT TTAGTAAGTGTCAGGATAAATTGCGAAAAGAGATAGTTAATCTCTTGAAGAGTCATGAAAACTTTCCAAAGATAGGA AACAAGGAAATAATAAAATTACTACAGAGTCTTTCTGATACTGAAAAAGACTATAACGCGTTGGATTCATTTAGCAA GTTTTATACATATTTTACTAGCTACAATGAGGTTAGAAAGAATTTGTATTCCGATGAAGAAAAATCATCCACAGCGG CATATCGATTGATAAATGAAAATTTGCCTAAATTTCTAGATAATATTAAGGCTTATTCTATTGCTAAATCTGCAGGT GTGCGAGCTAAAGAACTGACCGAAGAAGAACAGGATTGTCTTTTTATGACTGAAACTTTTGAAAGGACACTTACTCA GGATGGAATTGATAATTATAACGAATTGATTGGAAAGCTTAATTTTGCGATTAATCTATATAATCAGCAAAATAATA AACTCAAGGGATTTCGTAAAGTACCTAAGATGAAAGAACTGTATAAACAGATTTTGTCGGAAAGAGAGGCATCATTT GTTGATGAATTTGTTGATGATGAAGCATTGCTAACTAACGTAGAGTCTTTTTCTGCACATATTAAAGAGTTTTTGGA ATCGGATTCTCTTTCAAGATTTGCGGAAGTCCTTGAAGAATCTGGTGGGGAAATGGTTTATATAAAAAATGATACTT CAAAGACAACATTTTCAAATATAGTATTTGGCTCTTGGAACGTAATTGATGAAAGATTGGCAGAGGAATATGATTCT GCTAATTCTAAGAAAAAGAAGGACGAAAAATATTACGATAAGCGTCATAAAGAACTGAAAAAGAACAAGAGCTATTC TGTGGAGAAGATAGTTTCATTATCAACGGAAACAGAGGATGTGATTGGAAAATATATAGAGAAGCTTCAAGCGGACA TTATTGCTATAAAAGAGACGCGAGAAGTTTTTGAGAAAGTTGTTCTTAAGGAGCATGATAAGAATAAATCTCTTAGA AAGAATACTAAAGCCATCGAGGCAATTAAATCATTTTTAGATACAATAAAAGATTTTGAGCGAGATATAAAACTTAT TAGCGGTAGCGAGCATGAGATGGAGAAGAATCTTGCCGTTTATGCAGAGCAAGAGAATATTTTATCTTCAATTAGAA ATGTGGATTCTCTATACAATATGTCAAGAAATTATCTCACCCAAAAGCCTTTTTCAACAGAAAAGTTTAAGTTGAAT TTTAATAGGGCAACATTATTAAATGGGTGGGATAAAAATAAAGAAACTGATAATCTAGGTATTCTTTTGGTAAAAGA AGGAAAATATTACTTAGGAATTATGAATACTAAAGCTAATAAAAGTTTTGTAAATCCACCTAAGCCGAAGACAGACA ATGTATATCATAAAGTGAATTATAAGCTATTACCAGGACCAAATAAGATGTTGCCTAAGGTCTTTTTTGCAAAGTCA AATCTTGAATATTACAAACCATCAGAAGACTTGCTAGCAAAATATCAAGCGGGTACACATAAGAAAGGAGAGAATTT TTCTTTAGAAGATTGCCATTCATTGATTTCTTTCTTTAAAGACTCTCTAGAAAAGCATCCAGACTGGTCAGAATTTG GATTTAAGTTTTCTGATACAAAAAAATATGATGATTTGAGTGGATTTTATAGAGAGGTAGAGAAGCAAGGATATAAG ATAACATATACGGATATTGATGTAGAGTATATTGATAGTTTGGTTGAAAAAGATGAGTTGTATCTTTTCCAAATCTA CAATAAGGATTTCTCGCCATATAGTAAGGGGAATTATAATCTCCACACGCTATATCTGACGATGTTATTTGATGAGC GTAATTTACGTAATGTGGTTTATAAATTAAATGGTGAGGCTGAAGTTTTTTATAGACCTGCTTCAATTGGAAAGGAT GAACTAATTATTCATAAATCTGGAGAGGAAATAAAGAATAAGAATCCAAAGAGGGCTATTGATAAACCAACAAGTAC ATTCGAATATGATATCGTCAAAGATCGAAGATATACTAAGGATAAATTTATGTTACATATTCCAGTAACTATGAATT TTGGCGTGGATGAAACTAGAAGATTCAATGAGGTCGTTAATGATGCTATAAGGGGAGATGATAAAGTTAGAGTCATT GGAATTGATAGAGGCGAGAGAAATTTATTATATGTAGTAGTTGTTGATTCTGATGGAACTATTTTGGAGCAGATTTC TCTTAATTCTATTATTAATAATGAGTATTCGATAGAAACAGATTATCACAAATTGCTGGATGAGAAAGAAGGGGATA GAGACAGAGCACGCAAAAATTGGACTACTATAGAAAATATTAAAGAACTTAAAGAGGGGTATCTAAGTCAGGTAGTT AATGTTATAGCAAAATTGGTTTTGAAATATGATGCTATTATCTGCCTTGAAGATTTGAATTTTGGATTTAAGCGTGG ACGTCAAAAAGTTGAAAAACAGGTATATCAGAAATTCGAAAAAATGCTTATTGATAAATTGAATTATTTAGTTATTG ATAAGAGTAGAAGCCAAGAGAATCCTGAAGAAGTTGGACATGTCTTGAATGCGTTACAGTTAACTTCAAAATTTACT AGTTTTAAGGAATTAGGTAAACAGACAGGTATTATTTATTACGTTCCTGCGTATTTAACTAGTAAAATTGATCCGAC AACAGGTTTCGCAAATCTCTTTTACGTAAAATATGAGAGTGTTGAAAAGTCCAAAGATTTCTTTAATAGATTTGATA GCATTTGTTTTAACAAAGTAGCAGGTTATTTTGAGTTTAGCTTTGATTATAAAAACTTTACTGATAGAGCCTGTGGT ATGAGAAGTAAATGGAAAGTATGTACCAATGGTGAACGAATCATTAAATATAGAAATGAAGAAAAGAACAGTTCTTT TGATGATAAGGTGATAGTTTTAACGGAAGAATTTAAGAAGTTGTTCAATGAGTATGGCATTGCTTTTAATGATTGTA TGGACCTGACTGATGCAATAAATGCTATTGATGATGCTAGTTTCTTCAGAAAGTTGACTAAATTGTTCCAACAGACA TTGCAGATGCGAAATAGTTCGGCTGATGGTTCCAGAGATTATATTATCTCGCCAGTTGAGAATGATAACGGGGAGTT TTTTAACTCCGAAAAATGCGATAAATCAAAACCAAAAGATGCTGATGCTAATGGAGCATTTAATATTGCCAGAAAGG GATTATGGGTGTTAGAACAACTTTATAATTCATCATCAGGAGAAAAGCTTAATTTAGCAATGACAAATGCTGAATGG TTAGAGTATGCACAGCAACATACGATTAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGC GTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGG GCTAA SEQ ID NO: 246 Gly-6xHis-TEV-NLS-ART11_1-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTATTACCAGGGGTTGACCAAATTGTACCCGATCAGCAAGACAA TCCGTAACGAGCTTATCCCTGTTGGAAAAACGTTGGAGCACATTCGCATGAATAATATTTTAGAGGCCGACATCCAG CGCAAATCGGATTATGAGCGTGTCAAGAAGTTGATGGATGACTATCACAAACAGTTGATCAACGAGTCGTTGCAAGA TGTTCACTTGAGTTACGTCGAAGAAGCCGCCGATCTGTACTTAAATGCTTCCAAAGACAAAGATATTGTGGATAAGT TTTCGAAGTGTCAAGACAAGCTTCGCAAGGAGATTGTGAACCTTTTAAAGAGCCACGAGAACTTTCCGAAGATCGGA AATAAGGAGATCATTAAGTTACTTCAGTCATTGAGTGACACTGAAAAAGACTACAACGCTCTTGACTCTTTCTCAAA GTTTTACACGTATTTTACTTCATATAATGAGGTGCGTAAAAACTTGTATTCCGACGAGGAAAAAAGCTCAACAGCCG CCTACCGTCTTATTAACGAGAACTTACCTAAGTTCCTGGATAATATTAAGGCTTACAGCATTGCCAAGAGCGCAGGG GTGCGTGCGAAAGAACTGACGGAGGAGGAGCAAGATTGTTTGTTTATGACAGAGACATTCGAGCGCACATTAACTCA GGACGGGATTGATAATTACAACGAACTGATTGGCAAGCTTAATTTTGCGATCAACTTATATAACCAACAAAATAACA AACTGAAGGGCTTCCGTAAGGTACCGAAAATGAAGGAACTTTATAAACAAATTCTGAGTGAACGTGAAGCAAGTTTT GTAGACGAATTTGTAGATGACGAGGCTTTACTGACCAACGTTGAAAGCTTCAGCGCACACATTAAAGAATTTTTAGA GAGTGATTCGTTATCTCGCTTTGCCGAGGTATTAGAAGAGTCGGGGGGAGAAATGGTATACATTAAGAACGACACCT CGAAGACAACCTTCAGTAACATCGTTTTCGGATCATGGAATGTCATCGACGAACGCTTGGCCGAGGAATACGACAGC GCAAACTCCAAAAAGAAGAAAGATGAAAAGTATTATGATAAACGCCACAAAGAGCTGAAAAAGAATAAATCCTATTC AGTGGAAAAGATCGTCAGCTTAAGTACAGAGACTGAGGACGTGATTGGTAAATATATTGAAAAACTTCAGGCTGATA TCATCGCAATCAAGGAAACACGTGAAGTCTTTGAAAAGGTAGTTCTGAAGGAACACGATAAAAACAAGAGCCTGCGT AAGAATACCAAAGCCATTGAGGCAATCAAATCTTTTTTAGATACTATCAAAGATTTTGAGCGTGATATCAAACTGAT TTCAGGGTCTGAGCACGAAATGGAGAAAAACCTTGCTGTGTACGCAGAGCAAGAAAACATCCTGTCGTCGATTCGTA ATGTAGATTCTTTGTACAATATGTCCCGTAACTACTTAACGCAGAAGCCTTTTAGTACCGAAAAATTTAAACTTAAC TTCAATCGCGCCACCTTATTAAATGGTTGGGACAAAAATAAAGAAACTGATAACTTAGGCATCTTGCTGGTGAAGGA AGGAAAATATTATCTTGGGATCATGAATACAAAGGCAAACAAGTCATTCGTGAATCCCCCGAAGCCGAAAACAGACA ATGTATACCACAAAGTAAACTACAAACTTCTTCCAGGCCCAAATAAAATGTTACCGAAGGTCTTCTTCGCTAAGTCA AACCTGGAATATTATAAACCTTCGGAAGATTTATTGGCAAAATATCAGGCCGGGACGCACAAAAAAGGGGAGAATTT CTCCCTTGAAGACTGTCACTCTCTTATCTCGTTTTTCAAAGACTCGTTGGAGAAGCACCCTGACTGGAGTGAATTCG GGTTTAAGTTTAGCGATACTAAGAAGTATGATGACCTGAGCGGTTTCTACCGCGAGGTGGAGAAGCAAGGATATAAA ATTACCTATACCGACATTGATGTTGAGTACATCGATAGTCTTGTCGAAAAGGATGAGCTTTACTTGTTTCAAATCTA CAATAAAGACTTTTCACCTTATAGTAAAGGTAACTACAATCTGCACACACTGTACCTGACGATGCTGTTCGATGAGC GTAATTTGCGTAACGTCGTCTATAAATTGAATGGTGAGGCGGAGGTTTTCTACCGCCCAGCGTCTATCGGCAAGGAC GAATTGATTATCCACAAGAGTGGAGAGGAAATTAAGAACAAGAATCCTAAACGTGCTATTGACAAGCCAACCTCCAC GTTTGAGTACGATATTGTTAAAGACCGCCGCTACACTAAGGATAAGTTTATGCTGCACATTCCAGTGACAATGAACT TTGGCGTTGATGAGACCCGCCGTTTTAACGAGGTCGTCAACGATGCAATTCGTGGGGACGACAAGGTACGTGTCATT GGTATTGACCGTGGCGAGCGCAATCTGCTGTACGTCGTCGTGGTTGACTCTGACGGGACGATCCTTGAGCAAATTAG TCTGAATTCCATTATTAATAACGAATACAGCATTGAAACCGACTACCATAAGCTTTTGGACGAAAAGGAAGGCGACC GTGACCGCGCTCGTAAAAATTGGACTACAATTGAGAATATCAAAGAATTAAAAGAAGGCTACCTTAGCCAAGTTGTA AACGTGATCGCAAAATTGGTATTGAAATACGATGCCATCATCTGTTTGGAAGATTTAAACTTTGGGTTTAAACGTGG CCGCCAAAAAGTGGAGAAGCAGGTATATCAAAAGTTTGAAAAGATGTTAATTGATAAACTTAATTATTTGGTAATTG ACAAATCCCGTAGCCAAGAAAATCCGGAAGAGGTGGGTCATGTCCTGAACGCCCTTCAATTAACTAGTAAGTTCACT AGCTTTAAGGAGTTGGGCAAACAAACTGGCATTATCTATTACGTCCCGGCCTATCTTACCAGCAAGATTGACCCTAC CACTGGCTTCGCCAATTTATTTTACGTCAAGTATGAAAGTGTAGAGAAGTCTAAAGACTTTTTTAATCGTTTTGATT CGATCTGTTTCAACAAGGTAGCCGGATACTTTGAGTTTAGTTTCGACTACAAAAATTTCACAGACCGCGCCTGCGGC ATGCGTAGCAAGTGGAAAGTCTGTACGAATGGAGAACGCATCATTAAATATCGCAACGAGGAAAAGAATTCGTCATT CGATGATAAGGTCATCGTGCTGACCGAAGAATTTAAGAAGCTTTTTAACGAATATGGTATCGCGTTCAATGACTGTA TGGATTTAACAGACGCTATCAATGCGATTGATGATGCTAGCTTTTTCCGCAAGCTGACAAAGTTATTTCAACAAACA TTGCAAATGCGCAACTCCTCCGCTGACGGCTCTCGCGATTATATTATTTCTCCCGTAGAAAACGATAATGGAGAGTT CTTTAATAGCGAGAAGTGTGACAAATCGAAACCAAAGGACGCCGATGCTAACGGTGCGTTCAATATTGCACGCAAGG GACTTTGGGTCTTAGAGCAGTTGTATAACAGCTCCAGCGGTGAAAAACTTAATCTGGCCATGACCAATGCTGAATGG TTGGAGTACGCGCAGCAGCACACCATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGC GTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGG GCTAA SEQ ID NO: 247 Gly-6xHis-TEV-NLS-ART11_2-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTACTATCAGGGACTGACTAAGCTTTATCCCATCTCGAAAACGA TTCGCAATGAATTGATCCCAGTCGGGAAAACGTTAGAGCATATCCGTATGAATAATATTCTTGAAGCAGACATCCAG CGCAAGTCCGATTACGAGCGTGTGAAAAAATTAATGGATGATTATCATAAACAATTAATCAATGAGTCGTTGCAGGA TGTGCATTTGTCATACGTGGAGGAAGCGGCTGACCTTTACTTAAATGCTTCTAAAGATAAGGATATCGTTGACAAGT TCAGCAAGTGCCAAGATAAATTGCGCAAGGAAATCGTGAACCTGCTGAAGAGCCATGAGAATTTTCCGAAGATCGGG AATAAAGAGATTATTAAGCTTTTGCAAAGCCTTTCCGATACGGAAAAAGATTACAATGCGTTGGACTCGTTCTCGAA GTTTTATACCTACTTTACCTCATATAATGAAGTACGCAAAAATCTTTATTCAGATGAAGAAAAGTCTAGTACGGCTG CCTATCGTCTGATCAATGAAAATCTTCCAAAGTTTCTGGACAATATTAAAGCTTACTCAATCGCCAAGTCGGCGGGA GTGCGCGCGAAGGAATTGACAGAGGAGGAACAAGACTGTTTGTTCATGACGGAAACCTTTGAACGCACTCTTACGCA AGACGGGATTGACAACTACAATGAATTGATCGGAAAGCTGAACTTTGCCATTAATTTGTATAATCAGCAAAACAACA AGCTTAAAGGTTTCCGTAAAGTCCCTAAGATGAAGGAGTTGTACAAACAAATCCTTAGCGAGCGTGAAGCATCCTTT GTGGATGAATTTGTAGATGACGAGGCCTTGTTGACCAATGTGGAATCGTTCTCAGCACACATTAAGGAGTTTTTAGA ATCCGACTCACTGTCCCGTTTTGCTGAAGTTTTGGAAGAGAGTGGGGGGGAAATGGTTTATATTAAGAATGATACCT CTAAGACGACTTTTTCGAATATCGTCTTTGGGTCATGGAATGTGATCGACGAGCGTTTGGCCGAGGAGTACGATAGT GCCAATTCCAAAAAAAAAAAAGACGAAAAGTATTATGATAAACGTCACAAAGAACTTAAGAAGAACAAATCCTATTC CGTAGAGAAGATTGTGTCACTGTCTACAGAAACTGAGGATGTAATTGGAAAGTACATTGAGAAGCTTCAAGCCGATA TCATCGCTATCAAAGAGACCCGTGAAGTGTTTGAAAAAGTCGTCCTGAAAGAACACGATAAGAACAAATCACTGCGT AAGAACACGAAAGCTATCGAAGCTATTAAGTCGTTCCTTGACACTATCAAGGACTTCGAACGTGATATCAAATTAAT CTCGGGTTCAGAACACGAAATGGAAAAAAATTTAGCGGTTTACGCTGAACAGGAAAATATTTTAAGCAGTATTCGTA ACGTCGACTCATTATACAACATGTCGCGCAATTACCTTACTCAAAAACCATTTTCCACGGAAAAATTTAAGTTGAAT TTCAATCGTGCCACCCTTTTAAATGGTTGGGACAAGAATAAGGAAACGGATAACCTTGGAATTTTACTGGTTAAGGA GGGAAAGTATTATTTGGGCATCATGAACACTAAGGCTAACAAAAGCTTCGTTAACCCGCCCAAGCCGAAGACAGATA ATGTATACCACAAAGTTAATTATAAACTGTTGCCAGGTCCGAATAAGATGCTTCCCAAGGTGTTCTTCGCCAAAAGC AACCTGGAGTACTACAAGCCGTCTGAGGATCTTCTTGCTAAATATCAGGCTGGCACGCATAAGAAGGGCGAAAATTT TAGCTTAGAAGACTGCCACAGCCTGATTTCATTCTTCAAGGACAGTTTGGAAAAGCATCCTGATTGGTCAGAGTTTG GATTTAAATTTTCGGATACAAAAAAATACGACGACCTTTCGGGTTTCTACCGTGAGGTAGAAAAACAAGGATATAAG ATCACATATACCGATATCGACGTAGAGTACATCGACTCCTTAGTAGAGAAAGACGAGCTGTATTTATTCCAGATTTA CAATAAGGACTTTTCACCATACTCTAAAGGGAATTATAATCTGCACACCTTGTACCTTACAATGTTATTCGACGAAC GTAATCTGCGCAACGTGGTATACAAGCTGAATGGGGAAGCGGAAGTATTTTATCGCCCCGCTTCAATCGGTAAAGAC GAATTAATTATCCATAAGTCAGGGGAGGAGATCAAGAATAAGAATCCTAAACGTGCTATTGATAAGCCCACATCCAC GTTCGAGTATGATATTGTAAAGGACCGCCGCTATACAAAGGATAAGTTTATGTTACATATCCCGGTTACCATGAACT TCGGTGTGGACGAGACTCGCCGTTTCAATGAGGTCGTTAATGACGCAATTCGTGGTGACGATAAAGTCCGTGTCATT GGAATCGATCGCGGAGAACGTAATTTATTGTACGTGGTCGTAGTGGACTCCGATGGAACAATTTTGGAACAGATCTC TCTTAATTCGATCATCAATAATGAATACAGTATCGAGACGGACTACCACAAATTACTTGATGAAAAGGAGGGTGATC GCGACCGTGCTCGCAAGAACTGGACAACGATTGAGAATATCAAAGAACTGAAGGAGGGTTATCTTTCGCAGGTCGTT AATGTGATCGCAAAATTGGTATTAAAATACGATGCAATCATCTGCTTAGAAGATTTGAATTTCGGTTTCAAACGCGG ACGCCAAAAAGTCGAGAAGCAGGTCTACCAGAAGTTTGAAAAGATGTTAATCGACAAATTGAATTACCTTGTAATCG ATAAATCTCGTTCACAAGAAAATCCAGAAGAAGTTGGACACGTTCTGAACGCGTTACAACTGACAAGCAAATTTACA AGCTTTAAAGAGCTTGGGAAACAAACTGGTATCATCTATTATGTTCCAGCCTATTTGACATCCAAGATCGATCCAAC TACTGGTTTCGCGAACTTGTTTTACGTCAAATATGAGTCAGTGGAAAAGTCAAAGGATTTTTTCAATCGCTTTGATA GTATTTGCTTTAACAAAGTGGCCGGCTATTTCGAATTTAGCTTTGATTACAAGAACTTCACTGACCGTGCTTGCGGT ATGCGTTCGAAGTGGAAAGTGTGTACTAACGGCGAGCGCATCATCAAATATCGTAACGAAGAGAAGAACTCCTCCTT CGACGACAAGGTCATCGTCCTTACCGAAGAATTTAAAAAATTGTTTAATGAATATGGTATTGCTTTCAATGATTGTA TGGACTTGACGGATGCAATTAACGCTATCGACGACGCGAGCTTCTTCCGTAAATTGACCAAATTATTTCAGCAGACG CTGCAAATGCGCAACAGCAGTGCTGATGGGTCGCGTGATTACATCATTAGTCCGGTCGAGAACGATAATGGGGAGTT TTTCAACTCTGAAAAATGCGACAAGTCAAAGCCTAAGGACGCAGATGCCAATGGAGCGTTTAACATTGCCCGTAAGG GTTTGTGGGTGCTGGAGCAATTATACAACAGTAGCTCTGGGGAGAAGCTGAACCTGGCAATGACTAATGCCGAGTGG TTAGAGTACGCGCAACAACACACTATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGC GTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGG GCTAA SEQ ID NO: 248 Gly-6xHis-TEV-NLS-ART11_3-3NLS ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTATTACCAGGGCTTAACTAAGTTATATCCGATCTCAAAGACCA TTCGCAATGAGTTGATTCCCGTAGGCAAGACACTTGAACACATCCGCATGAATAACATTCTTGAAGCAGACATCCAA CGCAAATCGGATTACGAGCGCGTAAAAAAGTTGATGGATGATTATCACAAACAATTAATCAACGAATCTCTTCAGGA CGTACACTTAAGCTACGTGGAAGAGGCTGCAGATCTGTACCTTAATGCCAGTAAGGACAAAGATATTGTAGATAAAT TCTCGAAATGTCAGGACAAACTTCGTAAGGAGATCGTAAATTTGCTTAAGTCACACGAAAACTTCCCAAAAATCGGT AATAAAGAAATCATCAAGCTGCTTCAATCTCTTAGCGACACAGAAAAAGATTACAATGCTTTGGACTCGTTTTCTAA GTTCTACACATATTTCACGAGTTACAATGAAGTACGCAAAAATTTATACAGCGACGAAGAGAAGAGCAGCACCGCGG CATATCGCTTGATCAATGAGAATCTGCCCAAATTTTTAGATAACATCAAGGCTTATTCGATTGCTAAGTCGGCAGGG GTTCGCGCGAAGGAGCTTACAGAAGAGGAACAGGATTGTCTGTTTATGACAGAAACCTTCGAGCGTACTCTGACACA GGATGGGATTGACAACTACAACGAATTAATCGGAAAACTTAATTTTGCGATTAACCTGTACAATCAACAAAATAACA AGCTGAAGGGCTTCCGTAAAGTGCCCAAGATGAAAGAACTTTATAAACAAATCTTGAGTGAGCGCGAGGCATCTTTC GTGGACGAATTTGTTGACGATGAGGCCTTGCTGACCAATGTGGAGAGCTTTTCTGCCCACATCAAGGAGTTCCTGGA ATCAGATAGTCTTAGTCGCTTTGCGGAAGTTCTTGAGGAAAGCGGGGGTGAGATGGTATACATTAAAAATGATACAT CTAAAACTACTTTCAGCAATATCGTGTTTGGGTCGTGGAACGTCATCGACGAGCGCCTGGCAGAAGAATACGACAGC GCTAATTCGAAAAAAAAAAAAGATGAGAAATACTATGACAAACGCCACAAAGAGCTGAAAAAAAATAAAAGCTATAG TGTCGAAAAAATTGTCTCTCTGTCTACCGAAACTGAAGATGTTATTGGTAAATATATTGAAAAACTGCAAGCTGATA TCATCGCAATCAAAGAAACCCGTGAGGTATTCGAGAAAGTCGTACTGAAGGAACATGACAAGAACAAGTCTCTTCGT AAGAACACCAAAGCCATTGAAGCCATTAAGTCATTCCTTGACACTATCAAGGATTTTGAACGTGACATTAAACTGAT CAGTGGGAGCGAACACGAGATGGAGAAAAACTTGGCCGTCTATGCCGAACAAGAAAATATTTTAAGTTCAATTCGTA ACGTTGATTCCCTTTACAATATGTCACGTAACTATTTGACACAAAAGCCGTTTTCAACAGAAAAGTTCAAGTTGAAC TTTAACCGCGCAACATTACTTAATGGATGGGACAAGAACAAAGAGACGGATAATCTTGGCATCCTGCTGGTCAAAGA AGGCAAATATTATTTGGGTATTATGAATACTAAGGCAAATAAATCATTCGTTAACCCCCCTAAGCCTAAAACCGACA ACGTGTATCATAAGGTGAATTACAAGTTATTACCTGGCCCCAACAAAATGCTGCCGAAAGTTTTCTTCGCAAAGTCT AATTTGGAGTACTACAAACCTTCTGAAGATCTTCTGGCTAAATATCAGGCGGGAACCCACAAAAAAGGTGAAAATTT TAGCTTGGAAGATTGCCACAGTTTAATTTCCTTTTTTAAGGATTCCTTAGAAAAACACCCAGATTGGTCCGAATTCG GCTTCAAATTTTCAGATACTAAGAAGTATGACGATCTGTCGGGCTTCTACCGCGAGGTGGAAAAACAAGGGTACAAG ATTACTTATACAGATATCGACGTCGAGTATATTGACTCTTTGGTTGAAAAGGACGAACTGTATCTTTTTCAGATCTA CAACAAAGACTTTAGTCCTTACAGTAAGGGCAACTACAACCTTCATACTTTATACCTGACAATGCTTTTCGACGAAC GCAATCTTCGTAACGTGGTTTATAAATTGAATGGCGAGGCAGAAGTGTTTTACCGCCCGGCGTCTATTGGAAAGGAC GAGCTTATCATCCATAAGTCCGGGGAAGAGATCAAGAATAAGAACCCTAAGCGCGCTATTGACAAACCGACATCCAC GTTTGAATACGATATTGTTAAGGACCGCCGCTACACTAAAGACAAATTCATGTTGCATATTCCGGTCACCATGAATT TTGGGGTTGATGAAACACGTCGTTTCAATGAAGTAGTAAACGATGCTATCCGCGGAGACGATAAGGTACGCGTCATT GGAATTGATCGCGGAGAACGCAATCTGTTATACGTAGTTGTCGTAGACTCAGATGGGACCATTCTGGAGCAGATTAG CTTGAACAGTATTATCAACAACGAGTATTCAATTGAGACCGATTACCATAAACTGTTAGATGAAAAAGAGGGTGATC GTGATCGTGCGCGCAAGAATTGGACGACTATCGAAAATATCAAGGAATTAAAAGAGGGATACCTGTCTCAGGTAGTA AATGTGATTGCTAAGTTGGTGCTGAAATACGACGCTATCATCTGCTTGGAGGATCTTAACTTCGGTTTCAAGCGTGG GCGCCAAAAGGTCGAGAAACAGGTCTACCAAAAGTTTGAAAAAATGTTAATTGACAAATTGAACTACTTAGTGATTG ATAAATCACGCTCACAGGAAAACCCAGAGGAAGTTGGACACGTTTTAAACGCCTTACAACTGACGAGTAAGTTTACC TCTTTTAAAGAATTAGGTAAACAGACGGGCATCATTTATTATGTCCCTGCCTACTTAACCAGTAAGATCGATCCGAC GACAGGATTTGCTAATCTTTTCTATGTCAAATACGAAAGCGTAGAAAAAAGTAAAGATTTCTTTAACCGCTTCGACT CCATTTGCTTCAATAAAGTAGCCGGCTACTTCGAATTTTCGTTCGACTACAAGAACTTTACCGACCGCGCGTGCGGT ATGCGTAGCAAATGGAAGGTTTGCACAAATGGTGAGCGTATCATCAAGTATCGCAACGAAGAAAAAAACAGCAGCTT TGACGATAAGGTGATCGTGTTGACGGAGGAATTTAAGAAGCTGTTCAACGAATATGGTATTGCTTTCAATGATTGTA TGGACTTGACGGATGCCATTAACGCAATTGACGATGCAAGCTTTTTTCGTAAGTTGACTAAATTGTTTCAACAAACT CTGCAAATGCGTAATTCTTCGGCAGACGGTTCTCGCGATTACATTATTTCGCCGGTAGAGAATGATAACGGCGAATT CTTCAATTCGGAAAAGTGCGACAAGAGCAAACCTAAGGATGCGGATGCGAACGGGGCCTTCAACATCGCCCGTAAAG GGTTGTGGGTGCTGGAGCAATTATACAATAGTTCATCAGGAGAGAAACTTAATCTGGCGATGACTAATGCTGAGTGG CTGGAGTACGCCCAACAACATACAATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGC GTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTATTCCGG GCTAA SEQ ID NO: 249 Gly-6xHis-TEV-NLS-ART11-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTATTATCAGGGTTTAACAAAGCTATATCCAATTAGTAAAACTA TTAGAAACGAATTAATTCCTGTAGGAAAGACTTTAGAACATATTAGAATGAATAATATTCTTGAGGCTGATATTCAG AGAAAATCAGATTATGAACGTGTAAAGAAGCTAATGGATGACTATCATAAGCAATTAATAAATGAGTCTTTGCAAGA TGTCCATTTGTCTTATGTTGAGGAGGCAGCTGATCTATATCTAAATGCTTCTAAGGATAAAGATATTGTAGATAAGT TTAGTAAGTGTCAGGATAAATTGCGAAAAGAGATAGTTAATCTCTTGAAGAGTCATGAAAACTTTCCAAAGATAGGA AACAAGGAAATAATAAAATTACTACAGAGTCTTTCTGATACTGAAAAAGACTATAACGCGTTGGATTCATTTAGCAA GTTTTATACATATTTTACTAGCTACAATGAGGTTAGAAAGAATTTGTATTCCGATGAAGAAAAATCATCCACAGCGG CATATCGATTGATAAATGAAAATTTGCCTAAATTTCTAGATAATATTAAGGCTTATTCTATTGCTAAATCTGCAGGT GTGCGAGCTAAAGAACTGACCGAAGAAGAACAGGATTGTCTTTTTATGACTGAAACTTTTGAAAGGACACTTACTCA GGATGGAATTGATAATTATAACGAATTGATTGGAAAGCTTAATTTTGCGATTAATCTATATAATCAGCAAAATAATA AACTCAAGGGATTTCGTAAAGTACCTAAGATGAAAGAACTGTATAAACAGATTTTGTCGGAAAGAGAGGCATCATTT GTTGATGAATTTGTTGATGATGAAGCATTGCTAACTAACGTAGAGTCTTTTTCTGCACATATTAAAGAGTTTTTGGA ATCGGATTCTCTTTCAAGATTTGCGGAAGTCCTTGAAGAATCTGGTGGGGAAATGGTTTATATAAAAAATGATACTT CAAAGACAACATTTTCAAATATAGTATTTGGCTCTTGGAACGTAATTGATGAAAGATTGGCAGAGGAATATGATTCT GCTAATTCTAAGAAAAAGAAGGACGAAAAATATTACGATAAGCGTCATAAAGAACTGAAAAAGAACAAGAGCTATTC TGTGGAGAAGATAGTTTCATTATCAACGGAAACAGAGGATGTGATTGGAAAATATATAGAGAAGCTTCAAGCGGACA TTATTGCTATAAAAGAGACGCGAGAAGTTTTTGAGAAAGTTGTTCTTAAGGAGCATGATAAGAATAAATCTCTTAGA AAGAATACTAAAGCCATCGAGGCAATTAAATCATTTTTAGATACAATAAAAGATTTTGAGCGAGATATAAAACTTAT TAGCGGTAGCGAGCATGAGATGGAGAAGAATCTTGCCGTTTATGCAGAGCAAGAGAATATTTTATCTTCAATTAGAA ATGTGGATTCTCTATACAATATGTCAAGAAATTATCTCACCCAAAAGCCTTTTTCAACAGAAAAGTTTAAGTTGAAT TTTAATAGGGCAACATTATTAAATGGGTGGGATAAAAATAAAGAAACTGATAATCTAGGTATTCTTTTGGTAAAAGA AGGAAAATATTACTTAGGAATTATGAATACTAAAGCTAATAAAAGTTTTGTAAATCCACCTAAGCCGAAGACAGACA ATGTATATCATAAAGTGAATTATAAGCTATTACCAGGACCAAATAAGATGTTGCCTAAGGTCTTTTTTGCAAAGTCA AATCTTGAATATTACAAACCATCAGAAGACTTGCTAGCAAAATATCAAGCGGGTACACATAAGAAAGGAGAGAATTT TTCTTTAGAAGATTGCCATTCATTGATTTCTTTCTTTAAAGACTCTCTAGAAAAGCATCCAGACTGGTCAGAATTTG GATTTAAGTTTTCTGATACAAAAAAATATGATGATTTGAGTGGATTTTATAGAGAGGTAGAGAAGCAAGGATATAAG ATAACATATACGGATATTGATGTAGAGTATATTGATAGTTTGGTTGAAAAAGATGAGTTGTATCTTTTCCAAATCTA CAATAAGGATTTCTCGCCATATAGTAAGGGGAATTATAATCTCCACACGCTATATCTGACGATGTTATTTGATGAGC GTAATTTACGTAATGTGGTTTATAAATTAAATGGTGAGGCTGAAGTTTTTTATAGACCTGCTTCAATTGGAAAGGAT GAACTAATTATTCATAAATCTGGAGAGGAAATAAAGAATAAGAATCCAAAGAGGGCTATTGATAAACCAACAAGTAC ATTCGAATATGATATCGTCAAAGATCGAAGATATACTAAGGATAAATTTATGTTACATATTCCAGTAACTATGAATT TTGGCGTGGATGAAACTAGAAGATTCAATGAGGTCGTTAATGATGCTATAAGGGGAGATGATAAAGTTAGAGTCATT GGAATTGATAGAGGCGAGAGAAATTTATTATATGTAGTAGTTGTTGATTCTGATGGAACTATTTTGGAGCAGATTTC TCTTAATTCTATTATTAATAATGAGTATTCGATAGAAACAGATTATCACAAATTGCTGGATGAGAAAGAAGGGGATA GAGACAGAGCACGCAAAAATTGGACTACTATAGAAAATATTAAAGAACTTAAAGAGGGGTATCTAAGTCAGGTAGTT AATGTTATAGCAAAATTGGTTTTGAAATATGATGCTATTATCTGCCTTGAAGATTTGAATTTTGGATTTAAGCGTGG ACGTCAAAAAGTTGAAAAACAGGTATATCAGAAATTCGAAAAAATGCTTATTGATAAATTGAATTATTTAGTTATTG ATAAGAGTAGAAGCCAAGAGAATCCTGAAGAAGTTGGACATGTCTTGAATGCGTTACAGTTAACTTCAAAATTTACT AGTTTTAAGGAATTAGGTAAACAGACAGGTATTATTTATTACGTTCCTGCGTATTTAACTAGTAAAATTGATCCGAC AACAGGTTTCGCAAATCTCTTTTACGTAAAATATGAGAGTGTTGAAAAGTCCAAAGATTTCTTTAATAGATTTGATA GCATTTGTTTTAACAAAGTAGCAGGTTATTTTGAGTTTAGCTTTGATTATAAAAACTTTACTGATAGAGCCTGTGGT ATGAGAAGTAAATGGAAAGTATGTACCAATGGTGAACGAATCATTAAATATAGAAATGAAGAAAAGAACAGTTCTTT TGATGATAAGGTGATAGTTTTAACGGAAGAATTTAAGAAGTIGTTCAATGAGTATGGCATTGCTTTTAATGATTGTA TGGACCTGACTGATGCAATAAATGCTATTGATGATGCTAGTTTCTTCAGAAAGTTGACTAAATTGTTCCAACAGACA TTGCAGATGCGAAATAGTTCGGCTGATGGTTCCAGAGATTATATTATCTCGCCAGTTGAGAATGATAACGGGGAGTT TTTTAACTCCGAAAAATGCGATAAATCAAAACCAAAAGATGCTGATGCTAATGGAGCATTTAATATTGCCAGAAAGG GATTATGGGTGTTAGAACAACTTTATAATTCATCATCAGGAGAAAAGCTTAATTTAGCAATGACAAATGCTGAATGG TTAGAGTATGCACAGCAACATACGATTAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGC GTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacc tgtatttccagggagggagtggatctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgac atcgattacaaggatgacgatgacaag SEQ ID NO: 250 Gly-6xHis-TEV-NLS-ART11_1-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTATTACCAGGGGTTGACCAAATTGTACCCGATCAGCAAGACAA TCCGTAACGAGCTTATCCCTGTTGGAAAAACGTTGGAGCACATTCGCATGAATAATATTTTAGAGGCCGACATCCAG CGCAAATCGGATTATGAGCGTGTCAAGAAGTTGATGGATGACTATCACAAACAGTTGATCAACGAGTCGTTGCAAGA TGTTCACTTGAGTTACGTCGAAGAAGCCGCCGATCTGTACTTAAATGCTTCCAAAGACAAAGATATTGTGGATAAGT TTTCGAAGTGTCAAGACAAGCTTCGCAAGGAGATTGTGAACCTTTTAAAGAGCCACGAGAACTTTCCGAAGATCGGA AATAAGGAGATCATTAAGTTACTTCAGTCATTGAGTGACACTGAAAAAGACTACAACGCTCTTGACTCTTTCTCAAA GTTTTACACGTATTTTACTTCATATAATGAGGTGCGTAAAAACTTGTATTCCGACGAGGAAAAAAGCTCAACAGCCG CCTACCGTCTTATTAACGAGAACTTACCTAAGTTCCTGGATAATATTAAGGCTTACAGCATTGCCAAGAGCGCAGGG GTGCGTGCGAAAGAACTGACGGAGGAGGAGCAAGATTGTTTGTTTATGACAGAGACATTCGAGCGCACATTAACTCA GGACGGGATTGATAATTACAACGAACTGATTGGCAAGCTTAATTTTGCGATCAACTTATATAACCAACAAAATAACA AACTGAAGGGCTTCCGTAAGGTACCGAAAATGAAGGAACTTTATAAACAAATTCTGAGTGAACGTGAAGCAAGTTTT GTAGACGAATTTGTAGATGACGAGGCTTTACTGACCAACGTTGAAAGCTTCAGCGCACACATTAAAGAATTTTTAGA GAGTGATTCGTTATCTCGCTTTGCCGAGGTATTAGAAGAGTCGGGGGGAGAAATGGTATACATTAAGAACGACACCT CGAAGACAACCTTCAGTAACATCGTTTTCGGATCATGGAATGTCATCGACGAACGCTTGGCCGAGGAATACGACAGC GCAAACTCCAAAAAGAAGAAAGATGAAAAGTATTATGATAAACGCCACAAAGAGCTGAAAAAGAATAAATCCTATTC AGTGGAAAAGATCGTCAGCTTAAGTACAGAGACTGAGGACGTGATTGGTAAATATATTGAAAAACTTCAGGCTGATA TCATCGCAATCAAGGAAACACGTGAAGTCTTTGAAAAGGTAGTTCTGAAGGAACACGATAAAAACAAGAGCCTGCGT AAGAATACCAAAGCCATTGAGGCAATCAAATCTTTTTTAGATACTATCAAAGATTTTGAGCGTGATATCAAACTGAT TTCAGGGTCTGAGCACGAAATGGAGAAAAACCTTGCTGTGTACGCAGAGCAAGAAAACATCCTGTCGTCGATTCGTA ATGTAGATTCTTTGTACAATATGTCCCGTAACTACTTAACGCAGAAGCCTTTTAGTACCGAAAAATTTAAACTTAAC TTCAATCGCGCCACCTTATTAAATGGTTGGGACAAAAATAAAGAAACTGATAACTTAGGCATCTTGCTGGTGAAGGA AGGAAAATATTATCTTGGGATCATGAATACAAAGGCAAACAAGTCATTCGTGAATCCCCCGAAGCCGAAAACAGACA ATGTATACCACAAAGTAAACTACAAACTTCTTCCAGGCCCAAATAAAATGTTACCGAAGGTCTTCTTCGCTAAGTCA AACCTGGAATATTATAAACCTTCGGAAGATTTATTGGCAAAATATCAGGCCGGGACGCACAAAAAAGGGGAGAATTT CTCCCTTGAAGACTGTCACTCTCTTATCTCGTTTTTCAAAGACTCGTTGGAGAAGCACCCTGACTGGAGTGAATTCG GGTTTAAGTTTAGCGATACTAAGAAGTATGATGACCTGAGCGGTTTCTACCGCGAGGTGGAGAAGCAAGGATATAAA ATTACCTATACCGACATTGATGTTGAGTACATCGATAGTCTTGTCGAAAAGGATGAGCTTTACTTGTTTCAAATCTA CAATAAAGACTTTTCACCTTATAGTAAAGGTAACTACAATCTGCACACACTGTACCTGACGATGCTGTTCGATGAGC GTAATTTGCGTAACGTCGTCTATAAATTGAATGGTGAGGCGGAGGTTTTCTACCGCCCAGCGTCTATCGGCAAGGAC GAATTGATTATCCACAAGAGTGGAGAGGAAATTAAGAACAAGAATCCTAAACGTGCTATTGACAAGCCAACCTCCAC GTTTGAGTACGATATTGTTAAAGACCGCCGCTACACTAAGGATAAGTTTATGCTGCACATTCCAGTGACAATGAACT TTGGCGTTGATGAGACCCGCCGTTTTAACGAGGTCGTCAACGATGCAATTCGTGGGGACGACAAGGTACGTGTCATT GGTATTGACCGTGGCGAGCGCAATCTGCTGTACGTCGTCGTGGTTGACTCTGACGGGACGATCCTTGAGCAAATTAG TCTGAATTCCATTATTAATAACGAATACAGCATTGAAACCGACTACCATAAGCTTTTGGACGAAAAGGAAGGCGACC GTGACCGCGCTCGTAAAAATTGGACTACAATTGAGAATATCAAAGAATTAAAAGAAGGCTACCTTAGCCAAGTTGTA AACGTGATCGCAAAATTGGTATTGAAATACGATGCCATCATCTGTTTGGAAGATTTAAACTTTGGGTTTAAACGTGG CCGCCAAAAAGTGGAGAAGCAGGTATATCAAAAGTTTGAAAAGATGTTAATTGATAAACTTAATTATTTGGTAATTG ACAAATCCCGTAGCCAAGAAAATCCGGAAGAGGTGGGTCATGTCCTGAACGCCCTTCAATTAACTAGTAAGTTCACT AGCTTTAAGGAGTTGGGCAAACAAACTGGCATTATCTATTACGTCCCGGCCTATCTTACCAGCAAGATTGACCCTAC CACTGGCTTCGCCAATTTATTTTACGTCAAGTATGAAAGTGTAGAGAAGTCTAAAGACTTTTTTAATCGTTTTGATT CGATCTGTTTCAACAAGGTAGCCGGATACTTTGAGTTTAGTTTCGACTACAAAAATTTCACAGACCGCGCCTGCGGC ATGCGTAGCAAGTGGAAAGTCTGTACGAATGGAGAACGCATCATTAAATATCGCAACGAGGAAAAGAATTCGTCATT CGATGATAAGGTCATCGTGCTGACCGAAGAATTTAAGAAGCTTTTTAACGAATATGGTATCGCGTTCAATGACTGTA TGGATTTAACAGACGCTATCAATGCGATTGATGATGCTAGCTTTTTCCGCAAGCTGACAAAGTTATTTCAACAAACA TTGCAAATGCGCAACTCCTCCGCTGACGGCTCTCGCGATTATATTATTTCTCCCGTAGAAAACGATAATGGAGAGTT CTTTAATAGCGAGAAGTGTGACAAATCGAAACCAAAGGACGCCGATGCTAACGGTGCGTTCAATATTGCACGCAAGG GACTTTGGGTCTTAGAGCAGTTGTATAACAGCTCCAGCGGTGAAAAACTTAATCTGGCCATGACCAATGCTGAATGG TTGGAGTACGCGCAGCAGCACACCATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGC GTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacc tgtatttccagggagggagtggatctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgac atcgattacaaggatgacgatgacaag SEQ ID NO: 251 Gly-6xHis-TEV-NLS-ART11_2-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTACTATCAGGGACTGACTAAGCTTTATCCCATCTCGAAAACGA TTCGCAATGAATTGATCCCAGTCGGGAAAACGTTAGAGCATATCCGTATGAATAATATTCTTGAAGCAGACATCCAG CGCAAGTCCGATTACGAGCGTGTGAAAAAATTAATGGATGATTATCATAAACAATTAATCAATGAGTCGTTGCAGGA TGTGCATTTGTCATACGTGGAGGAAGCGGCTGACCTTTACTTAAATGCTTCTAAAGATAAGGATATCGTTGACAAGT TCAGCAAGTGCCAAGATAAATTGCGCAAGGAAATCGTGAACCTGCTGAAGAGCCATGAGAATTTTCCGAAGATCGGG AATAAAGAGATTATTAAGCTTTTGCAAAGCCTTTCCGATACGGAAAAAGATTACAATGCGTTGGACTCGTTCTCGAA GTTTTATACCTACTTTACCTCATATAATGAAGTACGCAAAAATCTTTATTCAGATGAAGAAAAGTCTAGTACGGCTG CCTATCGTCTGATCAATGAAAATCTTCCAAAGTTTCTGGACAATATTAAAGCTTACTCAATCGCCAAGTCGGCGGGA GTGCGCGCGAAGGAATTGACAGAGGAGGAACAAGACTGTTTGTTCATGACGGAAACCTTTGAACGCACTCTTACGCA AGACGGGATTGACAACTACAATGAATTGATCGGAAAGCTGAACTTTGCCATTAATTTGTATAATCAGCAAAACAACA AGCTTAAAGGTTTCCGTAAAGTCCCTAAGATGAAGGAGTTGTACAAACAAATCCTTAGCGAGCGTGAAGCATCCTTT GTGGATGAATTTGTAGATGACGAGGCCTTGTTGACCAATGTGGAATCGTTCTCAGCACACATTAAGGAGTTTTTAGA ATCCGACTCACTGTCCCGTTTTGCTGAAGTTTTGGAAGAGAGTGGGGGGGAAATGGTTTATATTAAGAATGATACCT CTAAGACGACTTTTTCGAATATCGTCTTTGGGTCATGGAATGTGATCGACGAGCGTTTGGCCGAGGAGTACGATAGT GCCAATTCCAAAAAAAAAAAAGACGAAAAGTATTATGATAAACGTCACAAAGAACTTAAGAAGAACAAATCCTATTC CGTAGAGAAGATTGTGTCACTGTCTACAGAAACTGAGGATGTAATTGGAAAGTACATTGAGAAGCTTCAAGCCGATA TCATCGCTATCAAAGAGACCCGTGAAGTGTTTGAAAAAGTCGTCCTGAAAGAACACGATAAGAACAAATCACTGCGT AAGAACACGAAAGCTATCGAAGCTATTAAGTCGTTCCTTGACACTATCAAGGACTTCGAACGTGATATCAAATTAAT CTCGGGTTCAGAACACGAAATGGAAAAAAATTTAGCGGTTTACGCTGAACAGGAAAATATTTTAAGCAGTATTCGTA ACGTCGACTCATTATACAACATGTCGCGCAATTACCTTACTCAAAAACCATTTTCCACGGAAAAATTTAAGTTGAAT TTCAATCGTGCCACCCTTTTAAATGGTTGGGACAAGAATAAGGAAACGGATAACCTTGGAATTTTACTGGTTAAGGA GGGAAAGTATTATTTGGGCATCATGAACACTAAGGCTAACAAAAGCTTCGTTAACCCGCCCAAGCCGAAGACAGATA ATGTATACCACAAAGTTAATTATAAACTGTTGCCAGGTCCGAATAAGATGCTTCCCAAGGTGTTCTTCGCCAAAAGC AACCTGGAGTACTACAAGCCGTCTGAGGATCTTCTTGCTAAATATCAGGCTGGCACGCATAAGAAGGGCGAAAATTT TAGCTTAGAAGACTGCCACAGCCTGATTTCATTCTTCAAGGACAGTTTGGAAAAGCATCCTGATTGGTCAGAGTTTG GATTTAAATTTTCGGATACAAAAAAATACGACGACCTTTCGGGTTTCTACCGTGAGGTAGAAAAACAAGGATATAAG ATCACATATACCGATATCGACGTAGAGTACATCGACTCCTTAGTAGAGAAAGACGAGCTGTATTTATTCCAGATTTA CAATAAGGACTTTTCACCATACTCTAAAGGGAATTATAATCTGCACACCTTGTACCTTACAATGTTATTCGACGAAC GTAATCTGCGCAACGTGGTATACAAGCTGAATGGGGAAGCGGAAGTATTTTATCGCCCCGCTTCAATCGGTAAAGAC GAATTAATTATCCATAAGTCAGGGGAGGAGATCAAGAATAAGAATCCTAAACGTGCTATTGATAAGCCCACATCCAC GTTCGAGTATGATATTGTAAAGGACCGCCGCTATACAAAGGATAAGTTTATGTTACATATCCCGGTTACCATGAACT TCGGTGTGGACGAGACTCGCCGTTTCAATGAGGTCGTTAATGACGCAATTCGTGGTGACGATAAAGTCCGTGTCATT GGAATCGATCGCGGAGAACGTAATTTATTGTACGTGGTCGTAGTGGACTCCGATGGAACAATTTTGGAACAGATCTC TCTTAATTCGATCATCAATAATGAATACAGTATCGAGACGGACTACCACAAATTACTTGATGAAAAGGAGGGTGATC GCGACCGTGCTCGCAAGAACTGGACAACGATTGAGAATATCAAAGAACTGAAGGAGGGTTATCTTTCGCAGGTCGTT AATGTGATCGCAAAATTGGTATTAAAATACGATGCAATCATCTGCTTAGAAGATTTGAATTTCGGTTTCAAACGCGG ACGCCAAAAAGTCGAGAAGCAGGTCTACCAGAAGTTTGAAAAGATGTTAATCGACAAATTGAATTACCTTGTAATCG ATAAATCTCGTTCACAAGAAAATCCAGAAGAAGTTGGACACGTTCTGAACGCGTTACAACTGACAAGCAAATTTACA AGCTTTAAAGAGCTTGGGAAACAAACTGGTATCATCTATTATGTTCCAGCCTATTTGACATCCAAGATCGATCCAAC TACTGGTTTCGCGAACTTGTTTTACGTCAAATATGAGTCAGTGGAAAAGTCAAAGGATTTTTTCAATCGCTTTGATA GTATTTGCTTTAACAAAGTGGCCGGCTATTTCGAATTTAGCTTTGATTACAAGAACTTCACTGACCGTGCTTGCGGT ATGCGTTCGAAGTGGAAAGTGTGTACTAACGGCGAGCGCATCATCAAATATCGTAACGAAGAGAAGAACTCCTCCTT CGACGACAAGGTCATCGTCCTTACCGAAGAATTTAAAAAATTGTTTAATGAATATGGTATTGCTTTCAATGATTGTA TGGACTTGACGGATGCAATTAACGCTATCGACGACGCGAGCTTCTTCCGTAAATTGACCAAATTATTTCAGCAGACG CTGCAAATGCGCAACAGCAGTGCTGATGGGTCGCGTGATTACATCATTAGTCCGGTCGAGAACGATAATGGGGAGTT TTTCAACTCTGAAAAATGCGACAAGTCAAAGCCTAAGGACGCAGATGCCAATGGAGCGTTTAACATTGCCCGTAAGG GTTTGTGGGTGCTGGAGCAATTATACAACAGTAGCTCTGGGGAGAAGCTGAACCTGGCAATGACTAATGCCGAGTGG TTAGAGTACGCGCAACAACACACTATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGC GTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacc tgtatttccagggagggagtggatctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgac atcgattacaaggatgacgatgacaag SEQ ID NO: 252 Gly-6xHis-TEV-NLS-ART11_3-3NLS-3xFlag ATGGGCCATCATCATCATCATCACAGCAGCGGCGTCGATCTGGGTACCGAGAATTTGTATTTCCAGAGCCCAGCGGC TAAAAAAAAGAAACTGGATGGCAGCGTGGATATGTATTACCAGGGCTTAACTAAGTTATATCCGATCTCAAAGACCA TTCGCAATGAGTTGATTCCCGTAGGCAAGACACTTGAACACATCCGCATGAATAACATTCTTGAAGCAGACATCCAA CGCAAATCGGATTACGAGCGCGTAAAAAAGTTGATGGATGATTATCACAAACAATTAATCAACGAATCTCTTCAGGA CGTACACTTAAGCTACGTGGAAGAGGCTGCAGATCTGTACCTTAATGCCAGTAAGGACAAAGATATTGTAGATAAAT TCTCGAAATGTCAGGACAAACTTCGTAAGGAGATCGTAAATTTGCTTAAGTCACACGAAAACTTCCCAAAAATCGGT AATAAAGAAATCATCAAGCTGCTTCAATCTCTTAGCGACACAGAAAAAGATTACAATGCTTTGGACTCGTTTTCTAA GTTCTACACATATTTCACGAGTTACAATGAAGTACGCAAAAATTTATACAGCGACGAAGAGAAGAGCAGCACCGCGG CATATCGCTTGATCAATGAGAATCTGCCCAAATTTTTAGATAACATCAAGGCTTATTCGATTGCTAAGTCGGCAGGG GTTCGCGCGAAGGAGCTTACAGAAGAGGAACAGGATTGTCTGTTTATGACAGAAACCTTCGAGCGTACTCTGACACA GGATGGGATTGACAACTACAACGAATTAATCGGAAAACTTAATTTTGCGATTAACCTGTACAATCAACAAAATAACA AGCTGAAGGGCTTCCGTAAAGTGCCCAAGATGAAAGAACTTTATAAACAAATCTTGAGTGAGCGCGAGGCATCTTTC GTGGACGAATTTGTTGACGATGAGGCCTTGCTGACCAATGTGGAGAGCTTTTCTGCCCACATCAAGGAGTTCCTGGA ATCAGATAGTCTTAGTCGCTTTGCGGAAGTTCTTGAGGAAAGCGGGGGTGAGATGGTATACATTAAAAATGATACAT CTAAAACTACTTTCAGCAATATCGTGTTTGGGTCGTGGAACGTCATCGACGAGCGCCTGGCAGAAGAATACGACAGC GCTAATTCGAAAAAAAAAAAAGATGAGAAATACTATGACAAACGCCACAAAGAGCTGAAAAAAAATAAAAGCTATAG TGTCGAAAAAATTGTCTCTCTGTCTACCGAAACTGAAGATGTTATTGGTAAATATATTGAAAAACTGCAAGCTGATA TCATCGCAATCAAAGAAACCCGTGAGGTATTCGAGAAAGTCGTACTGAAGGAACATGACAAGAACAAGTCTCTTCGT AAGAACACCAAAGCCATTGAAGCCATTAAGTCATTCCTTGACACTATCAAGGATTTTGAACGTGACATTAAACTGAT CAGTGGGAGCGAACACGAGATGGAGAAAAACTTGGCCGTCTATGCCGAACAAGAAAATATTTTAAGTTCAATTCGTA ACGTTGATTCCCTTTACAATATGTCACGTAACTATTTGACACAAAAGCCGTTTTCAACAGAAAAGTTCAAGTTGAAC TTTAACCGCGCAACATTACTTAATGGATGGGACAAGAACAAAGAGACGGATAATCTTGGCATCCTGCTGGTCAAAGA AGGCAAATATTATTTGGGTATTATGAATACTAAGGCAAATAAATCATTCGTTAACCCCCCTAAGCCTAAAACCGACA ACGTGTATCATAAGGTGAATTACAAGTTATTACCTGGCCCCAACAAAATGCTGCCGAAAGTTTTCTTCGCAAAGTCT AATTTGGAGTACTACAAACCTTCTGAAGATCTTCTGGCTAAATATCAGGCGGGAACCCACAAAAAAGGTGAAAATTT TAGCTTGGAAGATTGCCACAGTTTAATTTCCTTTTTTAAGGATTCCTTAGAAAAACACCCAGATTGGTCCGAATTCG GCTTCAAATTTTCAGATACTAAGAAGTATGACGATCTGTCGGGCTTCTACCGCGAGGTGGAAAAACAAGGGTACAAG ATTACTTATACAGATATCGACGTCGAGTATATTGACTCTTTGGTTGAAAAGGACGAACTGTATCTTTTTCAGATCTA CAACAAAGACTTTAGTCCTTACAGTAAGGGCAACTACAACCTTCATACTTTATACCTGACAATGCTTTTCGACGAAC GCAATCTTCGTAACGTGGTTTATAAATTGAATGGCGAGGCAGAAGTGTTTTACCGCCCGGCGTCTATTGGAAAGGAC GAGCTTATCATCCATAAGTCCGGGGAAGAGATCAAGAATAAGAACCCTAAGCGCGCTATTGACAAACCGACATCCAC GTTTGAATACGATATTGTTAAGGACCGCCGCTACACTAAAGACAAATTCATGTTGCATATTCCGGTCACCATGAATT TTGGGGTTGATGAAACACGTCGTTTCAATGAAGTAGTAAACGATGCTATCCGCGGAGACGATAAGGTACGCGTCATT GGAATTGATCGCGGAGAACGCAATCTGTTATACGTAGTTGTCGTAGACTCAGATGGGACCATTCTGGAGCAGATTAG CTTGAACAGTATTATCAACAACGAGTATTCAATTGAGACCGATTACCATAAACTGTTAGATGAAAAAGAGGGTGATC GTGATCGTGCGCGCAAGAATTGGACGACTATCGAAAATATCAAGGAATTAAAAGAGGGATACCTGTCTCAGGTAGTA AATGTGATTGCTAAGTTGGTGCTGAAATACGACGCTATCATCTGCTTGGAGGATCTTAACTTCGGTTTCAAGCGTGG GCGCCAAAAGGTCGAGAAACAGGTCTACCAAAAGTTTGAAAAAATGTTAATTGACAAATTGAACTACTTAGTGATTG ATAAATCACGCTCACAGGAAAACCCAGAGGAAGTTGGACACGTTTTAAACGCCTTACAACTGACGAGTAAGTTTACC TCTTTTAAAGAATTAGGTAAACAGACGGGCATCATTTATTATGTCCCTGCCTACTTAACCAGTAAGATCGATCCGAC GACAGGATTTGCTAATCTTTTCTATGTCAAATACGAAAGCGTAGAAAAAAGTAAAGATTTCTTTAACCGCTTCGACT CCATTTGCTTCAATAAAGTAGCCGGCTACTTCGAATTTTCGTTCGACTACAAGAACTTTACCGACCGCGCGTGCGGT ATGCGTAGCAAATGGAAGGTTTGCACAAATGGTGAGCGTATCATCAAGTATCGCAACGAAGAAAAAAACAGCAGCTT TGACGATAAGGTGATCGTGTTGACGGAGGAATTTAAGAAGCTGTTCAACGAATATGGTATTGCTTTCAATGATTGTA TGGACTTGACGGATGCCATTAACGCAATTGACGATGCAAGCTTTTTTCGTAAGTTGACTAAATTGTTTCAACAAACT CTGCAAATGCGTAATTCTTCGGCAGACGGTTCTCGCGATTACATTATTTCGCCGGTAGAGAATGATAACGGCGAATT CTTCAATTCGGAAAAGTGCGACAAGAGCAAACCTAAGGATGCGGATGCGAACGGGGCCTTCAACATCGCCCGTAAAG GGTTGTGGGTGCTGGAGCAATTATACAATAGTTCATCAGGAGAGAAACTTAATCTGGCGATGACTAATGCTGAGTGG CTGGAGTACGCCCAACAACATACAATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGGCGAAGAAAAAAAAAGC GTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAACGTAAGGTTgaaaacc tgtatttccagggagggagtggatctggcggctcaggcgactacaaagaccatgacggtgattataaagatcatgac atcgattacaaggatgacgatgacaag SEQ ID NO: 253 Gly-8xHis-3xFlag-TEV-NLS-ART11-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGTATTATCAGGGTTTAACAAAGCTATAT CCAATTAGTAAAACTATTAGAAACGAATTAATTCCTGTAGGAAAGACTTTAGAACATATTAGAATGAATAATATTCT TGAGGCTGATATTCAGAGAAAATCAGATTATGAACGTGTAAAGAAGCTAATGGATGACTATCATAAGCAATTAATAA ATGAGTCTTTGCAAGATGTCCATTTGTCTTATGTTGAGGAGGCAGCTGATCTATATCTAAATGCTTCTAAGGATAAA GATATTGTAGATAAGTTTAGTAAGTGTCAGGATAAATTGCGAAAAGAGATAGTTAATCTCTTGAAGAGTCATGAAAA CTTTCCAAAGATAGGAAACAAGGAAATAATAAAATTACTACAGAGTCTTTCTGATACTGAAAAAGACTATAACGCGT TGGATTCATTTAGCAAGTTTTATACATATTTTACTAGCTACAATGAGGTTAGAAAGAATTTGTATTCCGATGAAGAA AAATCATCCACAGCGGCATATCGATTGATAAATGAAAATTTGCCTAAATTTCTAGATAATATTAAGGCTTATTCTAT TGCTAAATCTGCAGGTGTGCGAGCTAAAGAACTGACCGAAGAAGAACAGGATTGTCTTTTTATGACTGAAACTTTTG AAAGGACACTTACTCAGGATGGAATTGATAATTATAACGAATTGATTGGAAAGCTTAATTTTGCGATTAATCTATAT AATCAGCAAAATAATAAACTCAAGGGATTTCGTAAAGTACCTAAGATGAAAGAACTGTATAAACAGATTTTGTCGGA AAGAGAGGCATCATTTGTTGATGAATTTGTTGATGATGAAGCATTGCTAACTAACGTAGAGTCTTTTTCTGCACATA TTAAAGAGTTTTTGGAATCGGATTCTCTTTCAAGATTTGCGGAAGTCCTTGAAGAATCTGGTGGGGAAATGGTTTAT ATAAAAAATGATACTTCAAAGACAACATTTTCAAATATAGTATTTGGCTCTTGGAACGTAATTGATGAAAGATTGGC AGAGGAATATGATTCTGCTAATTCTAAGAAAAAGAAGGACGAAAAATATTACGATAAGCGTCATAAAGAACTGAAAA AGAACAAGAGCTATTCTGTGGAGAAGATAGTTTCATTATCAACGGAAACAGAGGATGTGATTGGAAAATATATAGAG AAGCTTCAAGCGGACATTATTGCTATAAAAGAGACGCGAGAAGTTTTTGAGAAAGTTGTTCTTAAGGAGCATGATAA GAATAAATCTCTTAGAAAGAATACTAAAGCCATCGAGGCAATTAAATCATTTTTAGATACAATAAAAGATTTTGAGC GAGATATAAAACTTATTAGCGGTAGCGAGCATGAGATGGAGAAGAATCTTGCCGTTTATGCAGAGCAAGAGAATATT TTATCTTCAATTAGAAATGTGGATTCTCTATACAATATGTCAAGAAATTATCTCACCCAAAAGCCTTTTTCAACAGA AAAGTTTAAGTTGAATTTTAATAGGGCAACATTATTAAATGGGTGGGATAAAAATAAAGAAACTGATAATCTAGGTA TTCTTTTGGTAAAAGAAGGAAAATATTACTTAGGAATTATGAATACTAAAGCTAATAAAAGTTTTGTAAATCCACCT AAGCCGAAGACAGACAATGTATATCATAAAGTGAATTATAAGCTATTACCAGGACCAAATAAGATGTTGCCTAAGGT CTTTTTTGCAAAGTCAAATCTTGAATATTACAAACCATCAGAAGACTTGCTAGCAAAATATCAAGCGGGTACACATA AGAAAGGAGAGAATTTTTCTTTAGAAGATTGCCATTCATTGATTTCTTTCTTTAAAGACTCTCTAGAAAAGCATCCA GACTGGTCAGAATTTGGATTTAAGTTTTCTGATACAAAAAAATATGATGATTTGAGTGGATTTTATAGAGAGGTAGA GAAGCAAGGATATAAGATAACATATACGGATATTGATGTAGAGTATATTGATAGTTTGGTTGAAAAAGATGAGTTGT ATCTTTTCCAAATCTACAATAAGGATTTCTCGCCATATAGTAAGGGGAATTATAATCTCCACACGCTATATCTGACG ATGTTATTTGATGAGCGTAATTTACGTAATGTGGTTTATAAATTAAATGGTGAGGCTGAAGTTTTTTATAGACCTGC TTCAATTGGAAAGGATGAACTAATTATTCATAAATCTGGAGAGGAAATAAAGAATAAGAATCCAAAGAGGGCTATTG ATAAACCAACAAGTACATTCGAATATGATATCGTCAAAGATCGAAGATATACTAAGGATAAATTTATGTTACATATT CCAGTAACTATGAATTTTGGCGTGGATGAAACTAGAAGATTCAATGAGGTCGTTAATGATGCTATAAGGGGAGATGA TAAAGTTAGAGTCATTGGAATTGATAGAGGCGAGAGAAATTTATTATATGTAGTAGTTGTTGATTCTGATGGAACTA TTTTGGAGCAGATTTCTCTTAATTCTATTATTAATAATGAGTATTCGATAGAAACAGATTATCACAAATTGCTGGAT GAGAAAGAAGGGGATAGAGACAGAGCACGCAAAAATTGGACTACTATAGAAAATATTAAAGAACTTAAAGAGGGGTA TCTAAGTCAGGTAGTTAATGTTATAGCAAAATTGGTTTTGAAATATGATGCTATTATCTGCCTTGAAGATTTGAATT TTGGATTTAAGCGTGGACGTCAAAAAGTTGAAAAACAGGTATATCAGAAATTCGAAAAAATGCTTATTGATAAATTG AATTATTTAGTTATTGATAAGAGTAGAAGCCAAGAGAATCCTGAAGAAGTTGGACATGTCTTGAATGCGTTACAGTT AACTTCAAAATTTACTAGTTTTAAGGAATTAGGTAAACAGACAGGTATTATTTATTACGTTCCTGCGTATTTAACTA GTAAAATTGATCCGACAACAGGTTTCGCAAATCTCTTTTACGTAAAATATGAGAGTGTTGAAAAGTCCAAAGATTTC TTTAATAGATTTGATAGCATTTGTTTTAACAAAGTAGCAGGTTATTTTGAGTTTAGCTTTGATTATAAAAACTTTAC TGATAGAGCCTGTGGTATGAGAAGTAAATGGAAAGTATGTACCAATGGTGAACGAATCATTAAATATAGAAATGAAG AAAAGAACAGTTCTTTTGATGATAAGGTGATAGTTTTAACGGAAGAATTTAAGAAGTTGTTCAATGAGTATGGCATT GCTTTTAATGATTGTATGGACCTGACTGATGCAATAAATGCTATTGATGATGCTAGTTTCTTCAGAAAGTTGACTAA ATTGTTCCAACAGACATTGCAGATGCGAAATAGTTCGGCTGATGGTTCCAGAGATTATATTATCTCGCCAGTTGAGA ATGATAACGGGGAGTTTTTTAACTCCGAAAAATGCGATAAATCAAAACCAAAAGATGCTGATGCTAATGGAGCATTT AATATTGCCAGAAAGGGATTATGGGTGTTAGAACAACTTTATAATTCATCATCAGGAGAAAAGCTTAATTTAGCAAT GACAAATGCTGAATGGTTAGAGTATGCACAGCAACATACGATTAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGG CGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAA CGTAAGGTTATTCCGGGCTAA SEQ ID NO: 254 Gly-8xHis-3xFlag-TEV-NLS-ART11_1-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGTATTACCAGGGGTTGACCAAATTGTAC CCGATCAGCAAGACAATCCGTAACGAGCTTATCCCTGTTGGAAAAACGTTGGAGCACATTCGCATGAATAATATTTT AGAGGCCGACATCCAGCGCAAATCGGATTATGAGCGTGTCAAGAAGTTGATGGATGACTATCACAAACAGTTGATCA ACGAGTCGTTGCAAGATGTTCACTTGAGTTACGTCGAAGAAGCCGCCGATCTGTACTTAAATGCTTCCAAAGACAAA GATATTGTGGATAAGTTTTCGAAGTGTCAAGACAAGCTTCGCAAGGAGATTGTGAACCTTTTAAAGAGCCACGAGAA CTTTCCGAAGATCGGAAATAAGGAGATCATTAAGTTACTTCAGTCATTGAGTGACACTGAAAAAGACTACAACGCTC TTGACTCTTTCTCAAAGTTTTACACGTATTTTACTTCATATAATGAGGTGCGTAAAAACTTGTATTCCGACGAGGAA AAAAGCTCAACAGCCGCCTACCGTCTTATTAACGAGAACTTACCTAAGTTCCTGGATAATATTAAGGCTTACAGCAT TGCCAAGAGCGCAGGGGTGCGTGCGAAAGAACTGACGGAGGAGGAGCAAGATTGTTTGTTTATGACAGAGACATTCG AGCGCACATTAACTCAGGACGGGATTGATAATTACAACGAACTGATTGGCAAGCTTAATTTTGCGATCAACTTATAT AACCAACAAAATAACAAACTGAAGGGCTTCCGTAAGGTACCGAAAATGAAGGAACTTTATAAACAAATTCTGAGTGA ACGTGAAGCAAGTTTTGTAGACGAATTTGTAGATGACGAGGCTTTACTGACCAACGTTGAAAGCTTCAGCGCACACA TTAAAGAATTTTTAGAGAGTGATTCGTTATCTCGCTTTGCCGAGGTATTAGAAGAGTCGGGGGGAGAAATGGTATAC ATTAAGAACGACACCTCGAAGACAACCTTCAGTAACATCGTTTTCGGATCATGGAATGTCATCGACGAACGCTTGGC CGAGGAATACGACAGCGCAAACTCCAAAAAGAAGAAAGATGAAAAGTATTATGATAAACGCCACAAAGAGCTGAAAA AGAATAAATCCTATTCAGTGGAAAAGATCGTCAGCTTAAGTACAGAGACTGAGGACGTGATTGGTAAATATATTGAA AAACTTCAGGCTGATATCATCGCAATCAAGGAAACACGTGAAGTCTTTGAAAAGGTAGTTCTGAAGGAACACGATAA AAACAAGAGCCTGCGTAAGAATACCAAAGCCATTGAGGCAATCAAATCTTTTTTAGATACTATCAAAGATTTTGAGC GTGATATCAAACTGATTTCAGGGTCTGAGCACGAAATGGAGAAAAACCTTGCTGTGTACGCAGAGCAAGAAAACATC CTGTCGTCGATTCGTAATGTAGATTCTTTGTACAATATGTCCCGTAACTACTTAACGCAGAAGCCTTTTAGTACCGA AAAATTTAAACTTAACTTCAATCGCGCCACCTTATTAAATGGTTGGGACAAAAATAAAGAAACTGATAACTTAGGCA TCTTGCTGGTGAAGGAAGGAAAATATTATCTTGGGATCATGAATACAAAGGCAAACAAGTCATTCGTGAATCCCCCG AAGCCGAAAACAGACAATGTATACCACAAAGTAAACTACAAACTTCTTCCAGGCCCAAATAAAATGTTACCGAAGGT CTTCTTCGCTAAGTCAAACCTGGAATATTATAAACCTTCGGAAGATTTATTGGCAAAATATCAGGCCGGGACGCACA AAAAAGGGGAGAATTTCTCCCTTGAAGACTGTCACTCTCTTATCTCGTTTTTCAAAGACTCGTTGGAGAAGCACCCT GACTGGAGTGAATTCGGGTTTAAGTTTAGCGATACTAAGAAGTATGATGACCTGAGCGGTTTCTACCGCGAGGTGGA GAAGCAAGGATATAAAATTACCTATACCGACATTGATGTTGAGTACATCGATAGTCTTGTCGAAAAGGATGAGCTTT ACTTGTTTCAAATCTACAATAAAGACTTTTCACCTTATAGTAAAGGTAACTACAATCTGCACACACTGTACCTGACG ATGCTGTTCGATGAGCGTAATTTGCGTAACGTCGTCTATAAATTGAATGGTGAGGCGGAGGTTTTCTACCGCCCAGC GTCTATCGGCAAGGACGAATTGATTATCCACAAGAGTGGAGAGGAAATTAAGAACAAGAATCCTAAACGTGCTATTG ACAAGCCAACCTCCACGTTTGAGTACGATATTGTTAAAGACCGCCGCTACACTAAGGATAAGTTTATGCTGCACATT CCAGTGACAATGAACTTTGGCGTTGATGAGACCCGCCGTTTTAACGAGGTCGTCAACGATGCAATTCGTGGGGACGA CAAGGTACGTGTCATTGGTATTGACCGTGGCGAGCGCAATCTGCTGTACGTCGTCGTGGTTGACTCTGACGGGACGA TCCTTGAGCAAATTAGTCTGAATTCCATTATTAATAACGAATACAGCATTGAAACCGACTACCATAAGCTTTTGGAC GAAAAGGAAGGCGACCGTGACCGCGCTCGTAAAAATTGGACTACAATTGAGAATATCAAAGAATTAAAAGAAGGCTA CCTTAGCCAAGTTGTAAACGTGATCGCAAAATTGGTATTGAAATACGATGCCATCATCTGTTTGGAAGATTTAAACT TTGGGTTTAAACGTGGCCGCCAAAAAGTGGAGAAGCAGGTATATCAAAAGTTTGAAAAGATGTTAATTGATAAACTT AATTATTTGGTAATTGACAAATCCCGTAGCCAAGAAAATCCGGAAGAGGTGGGTCATGTCCTGAACGCCCTTCAATT AACTAGTAAGTTCACTAGCTTTAAGGAGTTGGGCAAACAAACTGGCATTATCTATTACGTCCCGGCCTATCTTACCA GCAAGATTGACCCTACCACTGGCTTCGCCAATTTATTTTACGTCAAGTATGAAAGTGTAGAGAAGTCTAAAGACTTT TTTAATCGTTTTGATTCGATCTGTTTCAACAAGGTAGCCGGATACTTTGAGTTTAGTTTCGACTACAAAAATTTCAC AGACCGCGCCTGCGGCATGCGTAGCAAGTGGAAAGTCTGTACGAATGGAGAACGCATCATTAAATATCGCAACGAGG AAAAGAATTCGTCATTCGATGATAAGGTCATCGTGCTGACCGAAGAATTTAAGAAGCTTTTTAACGAATATGGTATC GCGTTCAATGACTGTATGGATTTAACAGACGCTATCAATGCGATTGATGATGCTAGCTTTTTCCGCAAGCTGACAAA GTTATTTCAACAAACATTGCAAATGCGCAACTCCTCCGCTGACGGCTCTCGCGATTATATTATTTCTCCCGTAGAAA ACGATAATGGAGAGTTCTTTAATAGCGAGAAGTGTGACAAATCGAAACCAAAGGACGCCGATGCTAACGGTGCGTTC AATATTGCACGCAAGGGACTTTGGGTCTTAGAGCAGTTGTATAACAGCTCCAGCGGTGAAAAACTTAATCTGGCCAT GACCAATGCTGAATGGTTGGAGTACGCGCAGCAGCACACCATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGG CGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAA CGTAAGGTTATTCCGGGCTAA SEQ ID NO: 255 Gly-8xHis-3xFlag-TEV-NLS-ART11_2-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGTACTATCAGGGACTGACTAAGCTTTAT CCCATCTCGAAAACGATTCGCAATGAATTGATCCCAGTCGGGAAAACGTTAGAGCATATCCGTATGAATAATATTCT TGAAGCAGACATCCAGCGCAAGTCCGATTACGAGCGTGTGAAAAAATTAATGGATGATTATCATAAACAATTAATCA ATGAGTCGTTGCAGGATGTGCATTTGTCATACGTGGAGGAAGCGGCTGACCTTTACTTAAATGCTTCTAAAGATAAG GATATCGTTGACAAGTTCAGCAAGTGCCAAGATAAATTGCGCAAGGAAATCGTGAACCTGCTGAAGAGCCATGAGAA TTTTCCGAAGATCGGGAATAAAGAGATTATTAAGCTTTTGCAAAGCCTTTCCGATACGGAAAAAGATTACAATGCGT TGGACTCGTTCTCGAAGTTTTATACCTACTTTACCTCATATAATGAAGTACGCAAAAATCTTTATTCAGATGAAGAA AAGTCTAGTACGGCTGCCTATCGTCTGATCAATGAAAATCTTCCAAAGTTTCTGGACAATATTAAAGCTTACTCAAT CGCCAAGTCGGCGGGAGTGCGCGCGAAGGAATTGACAGAGGAGGAACAAGACTGTTTGTTCATGACGGAAACCTTTG AACGCACTCTTACGCAAGACGGGATTGACAACTACAATGAATTGATCGGAAAGCTGAACTTTGCCATTAATTTGTAT AATCAGCAAAACAACAAGCTTAAAGGTTTCCGTAAAGTCCCTAAGATGAAGGAGTTGTACAAACAAATCCTTAGCGA GCGTGAAGCATCCTTTGTGGATGAATTTGTAGATGACGAGGCCTTGTTGACCAATGTGGAATCGTTCTCAGCACACA TTAAGGAGTTTTTAGAATCCGACTCACTGTCCCGTTTTGCTGAAGTTTTGGAAGAGAGTGGGGGGGAAATGGTTTAT ATTAAGAATGATACCTCTAAGACGACTTTTTCGAATATCGTCTTTGGGTCATGGAATGTGATCGACGAGCGTTTGGC CGAGGAGTACGATAGTGCCAATTCCAAAAAAAAAAAAGACGAAAAGTATTATGATAAACGTCACAAAGAACTTAAGA AGAACAAATCCTATTCCGTAGAGAAGATTGTGTCACTGTCTACAGAAACTGAGGATGTAATTGGAAAGTACATTGAG AAGCTTCAAGCCGATATCATCGCTATCAAAGAGACCCGTGAAGTGTTTGAAAAAGTCGTCCTGAAAGAACACGATAA GAACAAATCACTGCGTAAGAACACGAAAGCTATCGAAGCTATTAAGTCGTTCCTTGACACTATCAAGGACTTCGAAC GTGATATCAAATTAATCTCGGGTTCAGAACACGAAATGGAAAAAAATTTAGCGGTTTACGCTGAACAGGAAAATATT TTAAGCAGTATTCGTAACGTCGACTCATTATACAACATGTCGCGCAATTACCTTACTCAAAAACCATTTTCCACGGA AAAATTTAAGTTGAATTTCAATCGTGCCACCCTTTTAAATGGTTGGGACAAGAATAAGGAAACGGATAACCTTGGAA TTTTACTGGTTAAGGAGGGAAAGTATTATTTGGGCATCATGAACACTAAGGCTAACAAAAGCTTCGTTAACCCGCCC AAGCCGAAGACAGATAATGTATACCACAAAGTTAATTATAAACTGTTGCCAGGTCCGAATAAGATGCTTCCCAAGGT GTTCTTCGCCAAAAGCAACCTGGAGTACTACAAGCCGTCTGAGGATCTTCTTGCTAAATATCAGGCTGGCACGCATA AGAAGGGCGAAAATTTTAGCTTAGAAGACTGCCACAGCCTGATTTCATTCTTCAAGGACAGTTTGGAAAAGCATCCT GATTGGTCAGAGTTTGGATTTAAATTTTCGGATACAAAAAAATACGACGACCTTTCGGGTTTCTACCGTGAGGTAGA AAAACAAGGATATAAGATCACATATACCGATATCGACGTAGAGTACATCGACTCCTTAGTAGAGAAAGACGAGCTGT ATTTATTCCAGATTTACAATAAGGACTTTTCACCATACTCTAAAGGGAATTATAATCTGCACACCTTGTACCTTACA ATGTTATTCGACGAACGTAATCTGCGCAACGTGGTATACAAGCTGAATGGGGAAGCGGAAGTATTTTATCGCCCCGC TTCAATCGGTAAAGACGAATTAATTATCCATAAGTCAGGGGAGGAGATCAAGAATAAGAATCCTAAACGTGCTATTG ATAAGCCCACATCCACGTTCGAGTATGATATTGTAAAGGACCGCCGCTATACAAAGGATAAGTTTATGTTACATATC CCGGTTACCATGAACTTCGGTGTGGACGAGACTCGCCGTTTCAATGAGGTCGTTAATGACGCAATTCGTGGTGACGA TAAAGTCCGTGTCATTGGAATCGATCGCGGAGAACGTAATTTATTGTACGTGGTCGTAGTGGACTCCGATGGAACAA TTTTGGAACAGATCTCTCTTAATTCGATCATCAATAATGAATACAGTATCGAGACGGACTACCACAAATTACTTGAT GAAAAGGAGGGTGATCGCGACCGTGCTCGCAAGAACTGGACAACGATTGAGAATATCAAAGAACTGAAGGAGGGTTA TCTTTCGCAGGTCGTTAATGTGATCGCAAAATTGGTATTAAAATACGATGCAATCATCTGCTTAGAAGATTTGAATT TCGGTTTCAAACGCGGACGCCAAAAAGTCGAGAAGCAGGTCTACCAGAAGTTTGAAAAGATGTTAATCGACAAATTG AATTACCTTGTAATCGATAAATCTCGTTCACAAGAAAATCCAGAAGAAGTTGGACACGTTCTGAACGCGTTACAACT GACAAGCAAATTTACAAGCTTTAAAGAGCTTGGGAAACAAACTGGTATCATCTATTATGTTCCAGCCTATTTGACAT CCAAGATCGATCCAACTACTGGTTTCGCGAACTTGTTTTACGTCAAATATGAGTCAGTGGAAAAGTCAAAGGATTTT TTCAATCGCTTTGATAGTATTTGCTTTAACAAAGTGGCCGGCTATTTCGAATTTAGCTTTGATTACAAGAACTTCAC TGACCGTGCTTGCGGTATGCGTTCGAAGTGGAAAGTGTGTACTAACGGCGAGCGCATCATCAAATATCGTAACGAAG AGAAGAACTCCTCCTTCGACGACAAGGTCATCGTCCTTACCGAAGAATTTAAAAAATTGTTTAATGAATATGGTATT GCTTTCAATGATTGTATGGACTTGACGGATGCAATTAACGCTATCGACGACGCGAGCTTCTTCCGTAAATTGACCAA ATTATTTCAGCAGACGCTGCAAATGCGCAACAGCAGTGCTGATGGGTCGCGTGATTACATCATTAGTCCGGTCGAGA ACGATAATGGGGAGTTTTTCAACTCTGAAAAATGCGACAAGTCAAAGCCTAAGGACGCAGATGCCAATGGAGCGTTT AACATTGCCCGTAAGGGTTTGTGGGTGCTGGAGCAATTATACAACAGTAGCTCTGGGGAGAAGCTGAACCTGGCAAT GACTAATGCCGAGTGGTTAGAGTACGCGCAACAACACACTATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGG CGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAA CGTAAGGTTATTCCGGGCTAA SEQ ID NO: 256 Gly-8xHis-3xFlag-TEV-NLS-ART11_3-3NLS ATGGGCcatcaccaccatcaccaccatcacGGGTCAGGAgactataaggaccacgacggagactacaaggatcatga tattgattacaaagacgatgacgataaggggagtggatctggcggctcaggcGAGAATTTGTATTTCCAGAGCCCAG CGGCTAAAAAAAAGAAACTGGATggaagcggctcgggtggcagcggtATGTATTACCAGGGCTTAACTAAGTTATAT CCGATCTCAAAGACCATTCGCAATGAGTTGATTCCCGTAGGCAAGACACTTGAACACATCCGCATGAATAACATTCT TGAAGCAGACATCCAACGCAAATCGGATTACGAGCGCGTAAAAAAGTTGATGGATGATTATCACAAACAATTAATCA ACGAATCTCTTCAGGACGTACACTTAAGCTACGTGGAAGAGGCTGCAGATCTGTACCTTAATGCCAGTAAGGACAAA GATATTGTAGATAAATTCTCGAAATGTCAGGACAAACTTCGTAAGGAGATCGTAAATTTGCTTAAGTCACACGAAAA CTTCCCAAAAATCGGTAATAAAGAAATCATCAAGCTGCTTCAATCTCTTAGCGACACAGAAAAAGATTACAATGCTT TGGACTCGTTTTCTAAGTTCTACACATATTTCACGAGTTACAATGAAGTACGCAAAAATTTATACAGCGACGAAGAG AAGAGCAGCACCGCGGCATATCGCTTGATCAATGAGAATCTGCCCAAATTTTTAGATAACATCAAGGCTTATTCGAT TGCTAAGTCGGCAGGGGTTCGCGCGAAGGAGCTTACAGAAGAGGAACAGGATTGTCTGTTTATGACAGAAACCTTCG AGCGTACTCTGACACAGGATGGGATTGACAACTACAACGAATTAATCGGAAAACTTAATTTTGCGATTAACCTGTAC AATCAACAAAATAACAAGCTGAAGGGCTTCCGTAAAGTGCCCAAGATGAAAGAACTTTATAAACAAATCTTGAGTGA GCGCGAGGCATCTTTCGTGGACGAATTTGTTGACGATGAGGCCTTGCTGACCAATGTGGAGAGCTTTTCTGCCCACA TCAAGGAGTTCCTGGAATCAGATAGTCTTAGTCGCTTTGCGGAAGTTCTTGAGGAAAGCGGGGGTGAGATGGTATAC ATTAAAAATGATACATCTAAAACTACTTTCAGCAATATCGTGTTTGGGTCGTGGAACGTCATCGACGAGCGCCTGGC AGAAGAATACGACAGCGCTAATTCGAAAAAAAAAAAAGATGAGAAATACTATGACAAACGCCACAAAGAGCTGAAAA AAAATAAAAGCTATAGTGTCGAAAAAATTGTCTCTCTGTCTACCGAAACTGAAGATGTTATTGGTAAATATATTGAA AAACTGCAAGCTGATATCATCGCAATCAAAGAAACCCGTGAGGTATTCGAGAAAGTCGTACTGAAGGAACATGACAA GAACAAGTCTCTTCGTAAGAACACCAAAGCCATTGAAGCCATTAAGTCATTCCTTGACACTATCAAGGATTTTGAAC GTGACATTAAACTGATCAGTGGGAGCGAACACGAGATGGAGAAAAACTTGGCCGTCTATGCCGAACAAGAAAATATT TTAAGTTCAATTCGTAACGTTGATTCCCTTTACAATATGTCACGTAACTATTTGACACAAAAGCCGTTTTCAACAGA AAAGTTCAAGTTGAACTTTAACCGCGCAACATTACTTAATGGATGGGACAAGAACAAAGAGACGGATAATCTTGGCA TCCTGCTGGTCAAAGAAGGCAAATATTATTTGGGTATTATGAATACTAAGGCAAATAAATCATTCGTTAACCCCCCT AAGCCTAAAACCGACAACGTGTATCATAAGGTGAATTACAAGTTATTACCTGGCCCCAACAAAATGCTGCCGAAAGT TTTCTTCGCAAAGTCTAATTTGGAGTACTACAAACCTTCTGAAGATCTTCTGGCTAAATATCAGGCGGGAACCCACA AAAAAGGTGAAAATTTTAGCTTGGAAGATTGCCACAGTTTAATTTCCTTTTTTAAGGATTCCTTAGAAAAACACCCA GATTGGTCCGAATTCGGCTTCAAATTTTCAGATACTAAGAAGTATGACGATCTGTCGGGCTTCTACCGCGAGGTGGA AAAACAAGGGTACAAGATTACTTATACAGATATCGACGTCGAGTATATTGACTCTTTGGTTGAAAAGGACGAACTGT ATCTTTTTCAGATCTACAACAAAGACTTTAGTCCTTACAGTAAGGGCAACTACAACCTTCATACTTTATACCTGACA ATGCTTTTCGACGAACGCAATCTTCGTAACGTGGTTTATAAATTGAATGGCGAGGCAGAAGTGTTTTACCGCCCGGC GTCTATTGGAAAGGACGAGCTTATCATCCATAAGTCCGGGGAAGAGATCAAGAATAAGAACCCTAAGCGCGCTATTG ACAAACCGACATCCACGTTTGAATACGATATTGTTAAGGACCGCCGCTACACTAAAGACAAATTCATGTTGCATATT CCGGTCACCATGAATTTTGGGGTTGATGAAACACGTCGTTTCAATGAAGTAGTAAACGATGCTATCCGCGGAGACGA TAAGGTACGCGTCATTGGAATTGATCGCGGAGAACGCAATCTGTTATACGTAGTTGTCGTAGACTCAGATGGGACCA TTCTGGAGCAGATTAGCTTGAACAGTATTATCAACAACGAGTATTCAATTGAGACCGATTACCATAAACTGTTAGAT GAAAAAGAGGGTGATCGTGATCGTGCGCGCAAGAATTGGACGACTATCGAAAATATCAAGGAATTAAAAGAGGGATA CCTGTCTCAGGTAGTAAATGTGATTGCTAAGTTGGTGCTGAAATACGACGCTATCATCTGCTTGGAGGATCTTAACT TCGGTTTCAAGCGTGGGCGCCAAAAGGTCGAGAAACAGGTCTACCAAAAGTTTGAAAAAATGTTAATTGACAAATTG AACTACTTAGTGATTGATAAATCACGCTCACAGGAAAACCCAGAGGAAGTTGGACACGTTTTAAACGCCTTACAACT GACGAGTAAGTTTACCTCTTTTAAAGAATTAGGTAAACAGACGGGCATCATTTATTATGTCCCTGCCTACTTAACCA GTAAGATCGATCCGACGACAGGATTTGCTAATCTTTTCTATGTCAAATACGAAAGCGTAGAAAAAAGTAAAGATTTC TTTAACCGCTTCGACTCCATTTGCTTCAATAAAGTAGCCGGCTACTTCGAATTTTCGTTCGACTACAAGAACTTTAC CGACCGCGCGTGCGGTATGCGTAGCAAATGGAAGGTTTGCACAAATGGTGAGCGTATCATCAAGTATCGCAACGAAG AAAAAAACAGCAGCTTTGACGATAAGGTGATCGTGTTGACGGAGGAATTTAAGAAGCTGTTCAACGAATATGGTATT GCTTTCAATGATTGTATGGACTTGACGGATGCCATTAACGCAATTGACGATGCAAGCTTTTTTCGTAAGTTGACTAA ATTGTTTCAACAAACTCTGCAAATGCGTAATTCTTCGGCAGACGGTTCTCGCGATTACATTATTTCGCCGGTAGAGA ATGATAACGGCGAATTCTTCAATTCGGAAAAGTGCGACAAGAGCAAACCTAAGGATGCGGATGCGAACGGGGCCTTC AACATCGCCCGTAAAGGGTTGTGGGTGCTGGAGCAATTATACAATAGTTCATCAGGAGAGAAACTTAATCTGGCGAT GACTAATGCTGAGTGGCTGGAGTACGCCCAACAACATACAATCAAACGTCCGGCAGCGACCAAAAAAGCCGGCCAGG CGAAGAAAAAAAAAGCGTCAGGTAGCGGCGCAGGCAGCCCGAAAAAGAAACGTAAAGTCGAGGATCCGAAAAAGAAA CGTAAGGTTATTCCGGGCTAA SEQ ID NO: 257 Gly-6xHis-TEV-NLS-ART2-3NLS MGHHHHHHSSGVDLGTENLYFQSPAAKKKKLDGSVDMLSNFTNQYQLSKTLRFELKPVGDTLKHIEKSGLIAQDEIR SQEYQEVKTIIDKYHKAFIDEALQNVVLSNLEEYEALFFERNRDEKAFEKLQAVLRKEIVAHFKQHPQYKTLFKKEL IKADLKNWQELSDAEKELVSHFDNFTTYFTGFHENRANMYTDEAKHSSIAYRIIHENLPIFLTNKKLFETIKQKAPH LAQETQDALLEYLSGAIVEDMFELSYFNHLLSQTHIDLYNQMIGGVKQDSLKIQGLNEKINLYRQANGLSKRELPNL KPLHKQILSDRETLSWLPESFESDEELMQGVQAYFESEVLAFECCDGKVNLLEKLPELLHQTQDYDFSKVYFKNDLA LTAASQAIFKDYRIIKEALWEVNKPKKSKDLVADEEKFFNKKNSYFSIEQIDGALNSAQLSANMMHYFQSESTKVIE QIQLTYNDWKRNSSNKELLKAFLDALLSYQRLLKPLNAPNDLEKDVAFYAYFDAYFTSLCGVVKLYDKVRNFMTKKP YSLEKFKLNFENSTLLDGWDVNKESDNTAILFRKEGLYYLGIMNKKYNKVFRNISSSQDEGYQKIDYKLLPGANKML PKVFFSDKNKEYFKPNAKLLERYKAGEHKKGDNFDLDFCHELIDFFKTSIEKHQDWKHFAYQFSPTESYEDLSGFYR EVEQQGYKISYKNIAASFIDTLVAEGKLYFFQIYNKDFSPYSKGTPNMHTLYWRALFDEKNLADVIYKLNGQAEIFF RKKSIEYSQEKLQKGHHHEMLKDKFAYPIIKDRRFAFDKFQFHVPITLNFKAEGNENITPKTFEYIRSNPDNIKVIG IDRGERHLLYLSLIDAEGKIVEQFTLNQIINSYNGKDHVIDYHAKLDAKEKDRDKARKEWGTVENIKELKEGYLSHV IHKIATLIIEHGAVVAMEDLNFGFKRGRFKVEKQVYQKFEKALIDKLNYLVDKKKEPHKLGGLLNALQLTSKFQSFE KMGKQNGFLFYVPAWNTSKIDPVTGFVNLFDTRYASVEKSKAFFTKFQSICYNEAKDYFELVFDYNDFTEKAKETRS EWTLCTYGERIVSFRNAEKNHQWDSKTIHLTTEFKNLFGELHGNDVKEYILEQNSVEFFKSLIYLLKITLQMRNSIT GTDIDYLVSPVADEAGNFYDSRKADTSLPKDADANGAYNIARKGLMLMHRIQNAEDLKKVNLAISNRDWLRNAQGLD KKRPAATKKAGQAKKKKASGSGAGSPKKKRKVEDPKKKRKVIPG SEQ ID NO: 258 Gly-6xHis-TEV-NLS-ART2-3NLS-3xFlag MGHHHHHHSSGVDLGTENLYFQSPAAKKKKLDGSVDMLSNFTNQYQLSKTLRFELKPVGDTLKHIEKSGLIAQDEIR SQEYQEVKTIIDKYHKAFIDEALQNVVLSNLEEYEALFFERNRDEKAFEKLQAVLRKEIVAHFKQHPQYKTLFKKEL IKADLKNWQELSDAEKELVSHFDNFTTYFTGFHENRANMYTDEAKHSSIAYRIIHENLPIFLTNKKLFETIKQKAPH LAQETQDALLEYLSGAIVEDMFELSYFNHLLSQTHIDLYNQMIGGVKQDSLKIQGLNEKINLYRQANGLSKRELPNL KPLHKQILSDRETLSWLPESFESDEELMQGVQAYFESEVLAFECCDGKVNLLEKLPELLHQTQDYDFSKVYFKNDLA LTAASQAIFKDYRIIKEALWEVNKPKKSKDLVADEEKFFNKKNSYFSIEQIDGALNSAQLSANMMHYFQSESTKVIE QIQLTYNDWKRNSSNKELLKAFLDALLSYQRLLKPLNAPNDLEKDVAFYAYFDAYFTSLCGVVKLYDKVRNFMTKKP YSLEKFKLNFENSTLLDGWDVNKESDNTAILFRKEGLYYLGIMNKKYNKVFRNISSSQDEGYQKIDYKLLPGANKML PKVFFSDKNKEYFKPNAKLLERYKAGEHKKGDNFDLDFCHELIDFFKTSIEKHQDWKHFAYQFSPTESYEDLSGFYR EVEQQGYKISYKNIAASFIDTLVAEGKLYFFQIYNKDFSPYSKGTPNMHTLYWRALFDEKNLADVIYKLNGQAEIFF RKKSIEYSQEKLQKGHHHEMLKDKFAYPIIKDRRFAFDKFQFHVPITLNFKAEGNENITPKTFEYIRSNPDNIKVIG IDRGERHLLYLSLIDAEGKIVEQFTLNQIINSYNGKDHVIDYHAKLDAKEKDRDKARKEWGTVENIKELKEGYLSHV IHKIATLIIEHGAVVAMEDLNFGFKRGRFKVEKQVYQKFEKALIDKLNYLVDKKKEPHKLGGLLNALQLTSKFQSFE KMGKQNGFLFYVPAWNTSKIDPVTGFVNLFDTRYASVEKSKAFFTKFQSICYNEAKDYFELVFDYNDFTEKAKETRS EWTLCTYGERIVSFRNAEKNHQWDSKTIHLTTEFKNLFGELHGNDVKEYILEQNSVEFFKSLIYLLKITLQMRNSIT GTDIDYLVSPVADEAGNFYDSRKADTSLPKDADANGAYNIARKGLMLMHRIQNAEDLKKVNLAISNRDWLRNAQGLD KKRPAATKKAGQAKKKKASGSGAGSPKKKRKVEDPKKKRKVENLYFQGGSGSGGSGDYKDHDGDYKDHDIDYKDDDD K SEQ ID NO: 259 Gly-8xHis-3xFlag-TEV-NLS-ART2-3NLS MGHHHHHHHHGSGDYKDHDGDYKDHDIDYKDDDDKGSGSGGSGENLYFQSPAAKKKKLDGSGSGGSGMLSNFTNQYQ LSKTLRFELKPVGDTLKHIEKSGLIAQDEIRSQEYQEVKTIIDKYHKAFIDEALQNVVLSNLEEYEALFFERNRDEK AFEKLQAVLRKEIVAHFKQHPQYKTLFKKELIKADLKNWQELSDAEKELVSHFDNFTTYFTGFHENRANMYTDEAKH KQDSLKIQGLNEKINLYRQANGLSKRELPNLKPLHKQILSDRETLSWLPESFESDEELMQGVQAYFESEVLAFECCD GKVNLLEKLPELLHQTQDYDFSKVYFKNDLALTAASQAIFKDYRIIKEALWEVNKPKKSKDLVADEEKFFNKKNSYF SIEQIDGALNSAQLSANMMHYFQSESTKVIEQIQLTYNDWKRNSSNKELLKAFLDALLSYQRLLKPLNAPNDLEKDV AFYAYFDAYFTSLCGVVKLYDKVRNFMTKKPYSLEKFKLNFENSTLLDGWDVNKESDNTAILFRKEGLYYLGIMNKK YNKVFRNISSSQDEGYQKIDYKLLPGANKMLPKVFFSDKNKEYFKPNAKLLERYKAGEHKKGDNFDLDFCHELIDFF KTSIEKHQDWKHFAYQFSPTESYEDLSGFYREVEQQGYKISYKNIAASFIDTLVAEGKLYFFQIYNKDFSPYSKGTP NMHTLYWRALFDEKNLADVIYKLNGQAEIFFRKKSIEYSQEKLQKGHHHEMLKDKFAYPIIKDRRFAFDKFQFHVPI TLNFKAEGNENITPKTFEYIRSNPDNIKVIGIDRGERHLLYLSLIDAEGKIVEQFTLNQIINSYNGKDHVIDYHAKL DAKEKDRDKARKEWGTVENIKELKEGYLSHVIHKIATLIIEHGAVVAMEDLNFGFKRGRFKVEKQVYQKFEKALIDK LNYLVDKKKEPHKLGGLLNALQLTSKFQSFEKMGKQNGFLFYVPAWNTSKIDPVTGFVNLFDTRYASVEKSKAFFTK FQSICYNEAKDYFELVFDYNDFTEKAKETRSEWTLCTYGERIVSFRNAEKNHQWDSKTIHLTTEFKNLFGELHGNDV KEYILEQNSVEFFKSLIYLLKITLQMRNSITGTDIDYLVSPVADEAGNFYDSRKADTSLPKDADANGAYNIARKGLM LMHRIQNAEDLKKVNLAISNRDWLRNAQGLDKKRPAATKKAGQAKKKKASGSGAGSPKKKRKVEDPKKKRKVIPG SEQ ID NO: 260 Gly-6xHis-TEV-NLS-ART11-3NLS MGHHHHHHSSGVDLGTENLYFQSPAAKKKKLDGSVDMYYQGLTKLYPISKTIRNELIPVGKTLEHIRMNNILEADIQ RKSDYERVKKLMDDYHKQLINESLQDVHLSYVEEAADLYLNASKDKDIVDKFSKCQDKLRKEIVNLLKSHENFPKIG NKEIIKLLQSLSDTEKDYNALDSFSKFYTYFTSYNEVRKNLYSDEEKSSTAAYRLINENLPKFLDNIKAYSIAKSAG VRAKELTEEEQDCLFMTETFERTLTQDGIDNYNELIGKLNFAINLYNQQNNKLKGFRKVPKMKELYKQILSEREASF VDEFVDDEALLTNVESFSAHIKEFLESDSLSRFAEVLEESGGEMVYIKNDTSKTTFSNIVFGSWNVIDERLAEEYDS ANSKKKKDEKYYDKRHKELKKNKSYSVEKIVSLSTETEDVIGKYIEKLQADIIAIKETREVFEKVVLKEHDKNKSLR KNTKAIEAIKSFLDTIKDFERDIKLISGSEHEMEKNLAVYAEQENILSSIRNVDSLYNMSRNYLTQKPFSTEKFKLN FNRATLLNGWDKNKETDNLGILLVKEGKYYLGIMNTKANKSFVNPPKPKTDNVYHKVNYKLLPGPNKMLPKVFFAKS NLEYYKPSEDLLAKYQAGTHKKGENFSLEDCHSLISFFKDSLEKHPDWSEFGFKFSDTKKYDDLSGFYREVEKQGYK ITYTDIDVEYIDSLVEKDELYLFQIYNKDFSPYSKGNYNLHTLYLTMLFDERNLRNVVYKLNGEAEVFYRPASIGKD ELIIHKSGEEIKNKNPKRAIDKPTSTFEYDIVKDRRYTKDKFMLHIPVTMNFGVDETRRFNEVVNDAIRGDDKVRVI GIDRGERNLLYVVVVDSDGTILEQISLNSIINNEYSIETDYHKLLDEKEGDRDRARKNWTTIENIKELKEGYLSQVV NVIAKLVLKYDAIICLEDLNFGFKRGRQKVEKQVYQKFEKMLIDKLNYLVIDKSRSQENPEEVGHVLNALQLTSKFT SFKELGKQTGIIYYVPAYLTSKIDPTTGFANLFYVKYESVEKSKDFFNRFDSICFNKVAGYFEFSFDYKNFTDRACG MRSKWKVCTNGERIIKYRNEEKNSSFDDKVIVLTEEFKKLFNEYGIAFNDCMDLTDAINAIDDASFFRKLTKLFQQT LQMRNSSADGSRDYIISPVENDNGEFFNSEKCDKSKPKDADANGAFNIARKGLWVLEQLYNSSSGEKLNLAMTNAEW LEYAQQHTIKRPAATKKAGOAKKKKASGSGAGSPKKKRKVEDPKKKRKVIPG SEQ ID NO: 261 Gly-6xHis-TEV-NLS-ART11-3NLS-3xFlag MGHHHHHHSSGVDLGTENLYFQSPAAKKKKLDGSVDMYYQGLTKLYPISKTIRNELIPVGKTLEHIRMNNILEADIQ RKSDYERVKKLMDDYHKQLINESLQDVHLSYVEEAADLYLNASKDKDIVDKFSKCQDKLRKEIVNLLKSHENFPKIG NKEIIKLLQSLSDTEKDYNALDSFSKFYTYFTSYNEVRKNLYSDEEKSSTAAYRLINENLPKFLDNIKAYSIAKSAG VRAKELTEEEQDCLFMTETFERTLTQDGIDNYNELIGKLNFAINLYNQQNNKLKGFRKVPKMKELYKQILSEREASF VDEFVDDEALLTNVESFSAHIKEFLESDSLSRFAEVLEESGGEMVYIKNDTSKTTFSNIVFGSWNVIDERLAEEYDS ANSKKKKDEKYYDKRHKELKKNKSYSVEKIVSLSTETEDVIGKYIEKLQADIIAIKETREVFEKVVLKEHDKNKSLR KNTKAIEAIKSFLDTIKDFERDIKLISGSEHEMEKNLAVYAEQENILSSIRNVDSLYNMSRNYLTQKPFSTEKFKLN FNRATLLNGWDKNKETDNLGILLVKEGKYYLGIMNTKANKSFVNPPKPKTDNVYHKVNYKLLPGPNKMLPKVFFAKS NLEYYKPSEDLLAKYQAGTHKKGENFSLEDCHSLISFFKDSLEKHPDWSEFGFKFSDTKKYDDLSGFYREVEKQGYK ITYTDIDVEYIDSLVEKDELYLFQIYNKDFSPYSKGNYNLHTLYLTMLFDERNLRNVVYKLNGEAEVFYRPASIGKD ELIIHKSGEEIKNKNPKRAIDKPTSTFEYDIVKDRRYTKDKFMLHIPVTMNFGVDETRRFNEVVNDAIRGDDKVRVI GIDRGERNLLYVVVVDSDGTILEQISLNSIINNEYSIETDYHKLLDEKEGDRDRARKNWTTIENIKELKEGYLSQVV NVIAKLVLKYDAIICLEDLNFGFKRGRQKVEKQVYQKFEKMLIDKLNYLVIDKSRSQENPEEVGHVLNALQLTSKFT SFKELGKQTGIIYYVPAYLTSKIDPTTGFANLFYVKYESVEKSKDFFNRFDSICFNKVAGYFEFSFDYKNFTDRACG MRSKWKVCTNGERIIKYRNEEKNSSFDDKVIVLTEEFKKLFNEYGIAFNDCMDLTDAINAIDDASFFRKLTKLFQQT LQMRNSSADGSRDYIISPVENDNGEFFNSEKCDKSKPKDADANGAFNIARKGLWVLEQLYNSSSGEKLNLAMTNAEW LEYAQQHTIKRPAATKKAGQAKKKKASGSGAGSPKKKRKVEDPKKKRKVENLYFQGGSGSGGSGDYKDHDGDYKDHD IDYKDDDDK SEQ ID NO: 262 Gly-8xHis-3xFlag-TEV-NLS-ART11-3NLS MGHHHHHHHHGSGDYKDHDGDYKDHDIDYKDDDDKGSGSGGSGENLYFQSPAAKKKKLDGSGSGGSGMYYQGLTKLY PISKTIRNELIPVGKTLEHIRMNNILEADIQRKSDYERVKKLMDDYHKQLINESLQDVHLSYVEEAADLYLNASKDK DIVDKFSKCQDKLRKEIVNLLKSHENFPKIGNKEIIKLLQSLSDTEKDYNALDSFSKFYTYFTSYNEVRKNLYSDEE KSSTAAYRLINENLPKFLDNIKAYSIAKSAGVRAKELTEEEQDCLFMTETFERTLTQDGIDNYNELIGKLNFAINLY NQQNNKLKGFRKVPKMKELYKQILSEREASFVDEFVDDEALLTNVESFSAHIKEFLESDSLSRFAEVLEESGGEMVY IKNDTSKTTFSNIVFGSWNVIDERLAEEYDSANSKKKKDEKYYDKRHKELKKNKSYSVEKIVSLSTETEDVIGKYIE KLQADIIAIKETREVFEKVVLKEHDKNKSLRKNTKAIEAIKSFLDTIKDFERDIKLISGSEHEMEKNLAVYAEQENI LSSIRNVDSLYNMSRNYLTQKPFSTEKFKLNFNRATLLNGWDKNKETDNLGILLVKEGKYYLGIMNTKANKSFVNPP KPKTDNVYHKVNYKLLPGPNKMLPKVFFAKSNLEYYKPSEDLLAKYQAGTHKKGENFSLEDCHSLISFFKDSLEKHP DWSEFGFKFSDTKKYDDLSGFYREVEKQGYKITYTDIDVEYIDSLVEKDELYLFQIYNKDFSPYSKGNYNLHTLYLT MLFDERNLRNVVYKLNGEAEVFYRPASIGKDELIIHKSGEEIKNKNPKRAIDKPTSTFEYDIVKDRRYTKDKFMLHI PVTMNFGVDETRRFNEVVNDAIRGDDKVRVIGIDRGERNLLYVVVVDSDGTILEQISLNSIINNEYSIETDYHKLLD EKEGDRDRARKNWTTIENIKELKEGYLSQVVNVIAKLVLKYDAIICLEDLNFGFKRGRQKVEKQVYQKFEKMLIDKL NYLVIDKSRSQENPEEVGHVLNALQLTSKFTSFKELGKQTGIIYYVPAYLTSKIDPTTGFANLFYVKYESVEKSKDF FNRFDSICFNKVAGYFEFSFDYKNFTDRACGMRSKWKVCTNGERIIKYRNEEKNSSFDDKVIVLTEEFKKLFNEYGI AFNDCMDLTDAINAIDDASFFRKLTKLFQQTLQMRNSSADGSRDYIISPVENDNGEFFNSEKCDKSKPKDADANGAF NIARKGLWVLEQLYNSSSGEKLNLAMTNAEWLEYAQQHTIKRPAATKKAGQAKKKKASGSGAGSPKKKRKVEDPKKK RKVIPG SEQ ID NO: 263 Nuclear localization sequence PKKKRKV SEQ ID NO: 264 Nuclear localization sequence KRPAAT KKAGQAKKKK SEQ ID NO: 265 Nuclear localization sequence PAAKRVKLD SEQ ID NO: 266 Nuclear localization sequence RQRRNELKRSP SEQ ID NO: 267 Nuclear localization sequence NQSSNFGPMKGGNFGGRSSGPYGGGGQYFAKPRNQGGY SEQ ID NO: 268 Nuclear localization sequence RMRIZFKNKGKDTAELRRRRVEVSVELRKAKKDEQILKRRNV SEQ ID NO: 269 Nuclear localization sequence VSRKRPRP SEQ ID NO: 270 Nuclear localization sequence PPKKARED SEQ ID NO: 271 Nuclear localization sequence PQPKKKPL SEQ ID NO: 272 Nuclear localization sequence SALIKKKKKMAP SEQ ID NO: 273 Nuclear localization sequence DRLRR SEQ ID NO: 274 Nuclear localization sequence PKQKKRK SEQ ID NO: 275 Nuclear localization sequence RKLKKKIKKL SEQ ID NO: 276 Nuclear localization sequence REKKKFLKRR SEQ ID NO: 277 Nuclear localization sequence KRKGDEVDGVDEVAKKKSKK SEQ ID NO: 278 Nuclear localization sequence RKCLQAGMNLEARKTKK SEQ ID NO: 279 Nuclear localization sequence PAAKKKKLD SEQ ID NO: 280 3xFLAG DYKDHD-G-DYKDHD-I-DYKDDDDK SEQ ID NO: 281 FLAG DYKDDDDK SEQ ID NO: 282 Peptide motif FLFQIYNKDF SEQ ID NO: 283 Peptide motif YFFQIYNKDF SEQ ID NO: 284 Peptide motif YLFQLYNKDY SEQ ID NO: 285 Peptide motif YLFEIYNKDF SEQ ID NO: 286 Peptide motif YLFQLYNKDF SEQ ID NO: 287 Peptide motif FLFKMSNKDL SEQ ID NO: 288 Peptide motif FLFKMSNKDL SEQ ID NO: 289 Peptide motif FLFQIYNKDF SEQ ID NO: 290 Peptide motif YLFKIYNKDF SEQ ID NO: 291 RNA corresponding to conserved DNA ART1 GUCUAUAUGACAAAGUAAUUUCUACUAUGUGUAGAU SEQ ID NO: 292 RNA corresponding to conserved DNA GUCUAAAGGUACCACCAAAUUUCUACUGUUGUAGAU SEQ ID NO: 293 RNA corresponding to conserved DNA GGUAUAAACCAUAGUAAAAUUUCUGCUAUUGCAGAU SEQ ID NO: 294 RNA corresponding to conserved DNA GUUGAAUAACCUUAAAUAAUUUCUACUGUUGUAGAU SEQ ID NO: 295 RNA corresponding to conserved DNA CUCUAAGAGGCAUAUAAAAUUUCUACUGUUGUA SEQ ID NO: 296 RNA corresponding to conserved DNA GUUUAAUAACCCUAUAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 297 RNA corresponding to conserved DNA GGCUAUAAUGCCUAAGUAAUUUCUACUAUUGUAGAU SEQ ID NO: 298 RNA corresponding to conserved DNA GUUUAAUACACCUAUAAGAUUUCUACUUUUGUAGAU SEQ ID NO: 299 RNA corresponding to conserved DNA GGCUAUAAUGCCUAAGUAAUUUCUACUAUUGUAGAU SEQ ID NO: 300 RNA corresponding to conserved DNA GGCUAACAGCCUUUUAAAUUUCUACUGUGUGUAGAU SEQ ID NO: 301 RNA corresponding to conserved DNA GCUUAGAACCUUUAAAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 302 RNA corresponding to conserved DNA GGCUAGUAUGCUUCAAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 303 RNA corresponding to conserved DNA GGCUAGUAUGCUUCAAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 304 RNA corresponding to conserved DNA GGCUAGUAUGCUUCAAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 305 RNA corresponding to conserved DNA GUCUAACGACCUUUUAAAUUUCUACUGUUUGUAGAU SEQ ID NO: 306 RNA corresponding to conserved DNA GUCUAACGACCUUUUAAAUUUCUACUGUUUGUAGAU SEQ ID NO: 307 RNA corresponding to conserved DNA GUCUAACGACCUUUUAAAUUUCUACUGUUUGUAGAU SEQ ID NO: 308 RNA corresponding to conserved DNA GGCUACAUAAAGCCUAUAAUUUCUACUAUGUGUAGAU SEQ ID NO: 309 RNA corresponding to conserved DNA GUCUAUAUGACUAAGUAAUUUCUACUAUGUGUAGAU SEQ ID NO: 310 RNA corresponding to conserved DNA GUCUAUAUGACUAAGUAAUUUCUACUAUGUGUAGAU SEQ ID NO: 311 RNA corresponding to conserved DNA GUCUAUAUGACUAAGUAAUUUCUACUAUGUGUAGAU SEQ ID NO: 312 RNA corresponding to conserved DNA GUCUAACGACCUUUUAAAUUUCUACUGUUUGUAGAU SEQ ID NO: 313 RNA corresponding to conserved DNA GUUGAAUAACCUUAAAUAAUUUCUACUGUUGUAGAU SEQ ID NO: 314 RNA corresponding to conserved DNA GUCUAACGACCUUUAAAAUUUCUACUAUUUGUAGAU SEQ ID NO: 315 RNA corresponding to conserved DNA GUUAAGUAACCUAUAGUAAUUUCUACUGUUGUAGAU SEQ ID NO: 316 RNA corresponding to conserved DNA GUUAAGUAACCUAUAGUAAUUUCUACUGUUGUAGAU SEQ ID NO: 317 RNA corresponding to conserved DNA GUUUAAUAACCCUAUAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 318 RNA corresponding to conserved DNA CUCUAAGAGAAGGUAUAAAUUUCUACUGUUGUAGAU SEQ ID NO: 319 RNA corresponding to conserved DNA GUUUAAUAACCCUAUAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 320 RNA corresponding to conserved DNA GUUUAAUAACCCUAUAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 321 RNA corresponding to conserved DNA GUUUAAUAACCCUAUAUAAUUUCUACUAUUGUAGAU SEQ ID NO: 322 RNA corresponding to conserved DNA GUUUAAUAACCCUAUAUAAUUUCUACUAUUGUAGAUA SEQ ID NO: 323 RNA corresponding to conserved DNA GUUUAAUCAACCCUUAGAAUUUCUACUAUUGUAGAU SEQ ID NO: 324 RNA corresponding to conserved DNA CUCUAAGAGAGGAUAUAAAUUUCUACUGUUGUAGAU SEQ ID NO: 325 RNA corresponding to conserved DNA ART35 GGCUAUAAUGCCUAAGUAAUUUCUACUAUUGUAGAU SEQ ID NO: 326 Primer TCGTCGGCAGCGTCAGATGTGTATAAGAGACAGcgtaccctggttggcagcgaatac SEQ ID NO: 327 Primer GTCTCGTGGGCTCGGAGATGTGTATAAGAGACAGacgcacgcgttttgccacgatc SEQ ID NO: 328 Primer AGCTTTACTTETTTCAAATCTACAATAAAG SEQ ID NO: 329 Primer CATCCTTTTCGACAAGAC SEQ ID NO: 330 ART2_4_Optimized_Ecoli ATGTTGTCTAACTTCACCAACCAGTATCAATTATCGAAAACTCTGCGTTTTGAGCTTAAACCCGTCGGGGATACGCT TAAACATATTGAGAAAAGCGGGCTGATCGCCCAAGACGAAATCCGTAGCCAAGAGTATCAGGAAGTCAAAACCATTA TCGATAAGTACCACAAGGCATTCATCGACGAGGCGTTGCAGAACGTTGTACTTTCTAATTTGGAAGAATACGAGGCT CTGTTTTTTGAGCGTAACCGCGACGAAAAGGCGTTCGAGAAGCTGCAAGCAGTGTTGCGTAAAGAAATTGTAGCGCA CTTTAAACAACACCCCCAATACAAGACTTTGTTTAAAAAAGAGCTTATTAAGGCCGATTTAAAAAACTGGCAAGAGC TGTCCGACGCTGAGAAGGAATTGGTGAGTCATTTCGACAACTTTACAACATATTTCACGGGATTCCACGAAAATCGC GCAAATATGTACACGGATGAAGCTAAGCATAGCAGCATCGCATATCGTATCATTCACGAAAACTTACCGATCTTTCT TACGAACAAAAAACTTTTCGAGACGATTAAGCAAAAGGCCCCCCACCTTGCCCAGGAGACACAGGATGCGCTTCTTG AGTATTTGTCAGGTGCAATTGTCGAAGACATGTTCGAACTGTCATATTTTAACCACTTGTTATCCCAAACTCATATC GACCTTTATAATCAGATGATTGGTGGCGTTAAACAAGACAGCTTGAAGATCCAAGGACTGAATGAAAAAATCAATCT TTACCGCCAGGCTAACGGCTTATCAAAGCGCGAATTGCCAAACTTGAAACCCCTGCACAAACAGATTCTGAGTGACC GTGAGACACTGTCTTGGTTACCAGAGAGCTTCGAGTCAGACGAAGAGTTAATGCAGGGTGTGCAGGCCTACTTCGAA TCAGAGGTCTTAGCCTTTGAGTGTTGTGATGGTAAAGTGAATCTGCTGGAAAAATTGCCGGAACTGCTTCACCAGAC CCAAGATTACGACTTTAGCAAAGTCTATTTTAAAAACGACCTTGCTTTGACGGCAGCCTCCCAGGCGATTTTTAAAG ATTATCGTATCATTAAGGAGGCGTTATGGGAGGTGAATAAGCCTAAAAAATCCAAGGATCTGGTTGCAGATGAGGAG AAATTTTTTAATAAGAAGAATAGTTATTTCAGTATCGAGCAGATTGACGGAGCACTGAATAGTGCTCAATTGTCCGC CAATATGATGCACTATTTTCAATCAGAGTCAACCAAGGTTATTGAACAGATCCAGTTGACTTATAACGACTGGAAGC GTAACTCATCGAACAAAGAACTTTTAAAAGCATTCTTAGACGCGCTTTTGTCTTACCAACGTCTGCTTAAACCTCTG AATGCGCCTAACGATTTAGAAAAAGATGTTGCATTTTATGCTTACTTCGATGCGTACTTCACGTCTTTGTGTGGAGT TGTAAAACTTTACGATAAAGTACGCAATTTTATGACCAAGAAACCATATAGCTTGGAAAAATTTAAGTTAAACTTTG AGAACTCCACTCTTTTGGACGGATGGGATGTAAACAAGGAATCGGATAATACCGCGATTCTTTTTCGTAAGGAAGGA CTTTATTATCTGGGCATCATGAATAAGAAGTACAATAAGGTATTCCGTAATATCTCTTCTTCACAAGATGAAGGTTA CCAGAAGATTGATTACAAATTACTGCCAGGTGCCAATAAAATGTTGCCGAAAGTTTTTTTTTCGGATAAAAACAAGG AGTATTTCAAACCGAACGCGAAGTTATTAGAGCGCTACAAAGCTGGCGAGCATAAAAAAGGGGACAACTTTGATTTA GACTTCTGCCATGAGTTAATCGACTTCTTCAAGACATCAATTGAAAAACACCAAGACTGGAAGCATTTTGCCTATCA GTTCTCGCCAACCGAGAGTTATGAGGATCTGTCAGGGTTCTATCGCGAGGTTGAACAGCAAGGGTATAAGATCTCTT ACAAAAATATCGCAGCCTCTTTTATCGATACTCTTGTCGCGGAAGGAAAGCTGTATTTCTTCCAGATTTATAATAAG GATTTTTCACCGTACTCTAAGGGTACACCTAATATGCACACATTGTACTGGCGCGCTCTGTTCGATGAGAAAAACCT TGCCGACGTAATCTACAAATTGAATGGGCAAGCAGAGATCTTCTTCCGCAAAAAGTCGATTGAATATTCGCAAGAAA AATTACAAAAAGGTCATCATCACGAGATGCTGAAGGATAAGTTTGCATACCCGATCATTAAAGATCGTCGCTTTGCT TTCGATAAATTCCAGTTCCACGTGCCAATCACATTGAATTTCAAGGCTGAGGGAAATGAGAATATTACACCTAAAAC CTTTGAGTATATCCGTTCTAATCCTGATAACATCAAAGTGATCGGAATTGACCGTGGGGAACGCCATCTTCTGTACT TATCATTGATTGATGCGGAGGGCAAGATTGTGGAGCAATTTACCTTGAACCAGATTATTAACTCATACAACGGAAAG GATCATGTAATCGATTACCATGCGAAATTAGATGCGAAGGAGAAGGATCGCGACAAAGCCCGCAAAGAGTGGGGTAC AGTTGAAAACATTAAAGAGTTGAAGGAGGGTTATCTGAGCCATGTCATCCATAAGATCGCTACTTTGATTATTGAGC ATGGAGCGGTTGTGGCAATGGAAGATTTGAACTTCGGCTTCAAGCGTGGGCGTTTCAAGGTTGAGAAACAAGTTTAT CAGAAATTTGAAAAGGCGCTTATTGATAAGTTAAATTACTTGGTAGACAAGAAGAAGGAACCCCACAAGCTGGGGGG GTTATTAAATGCTTTGCAACTTACAAGTAAATTCCAGAGCTTCGAGAAAATGGGAAAACAGAACGGGTTTTTGTTCT ATGTGCCTGCCTGGAACACGTCAAAGATCGACCCTGTGACCGGGTTCGTAAACCTTTTCGACACTCGTTATGCAAGC GTTGAGAAGAGTAAGGCCTTTTTTACGAAATTTCAGTCGATCTGTTACAACGAAGCGAAGGACTACTTTGAACTGGT CTTTGACTATAATGACTTTACTGAAAAGGCCAAGGAAACCCGCTCAGAATGGACGTTATGTACATACGGCGAGCGTA TTGTGAGCTTTCGTAACGCGGAGAAGAACCATCAATGGGACAGCAAGACCATTCATCTTACAACGGAATTTAAGAAT CTGTTTGGAGAGTTACACGGCAACGATGTGAAGGAGTATATCCTTGAGCAGAACTCGGTGGAATTCTTTAAGTCCCT TATCTATTTGCTTAAAATCACTCTGCAGATGCGTAATTCTATTACAGGAACTGATATTGATTACTTAGTGTCGCCGG TAGCTGATGAAGCCGGGAATTTCTATGACAGCCGTAAAGCGGACACCAGCTTGCCCAAGGATGCGGACGCCAATGGC GCGTATAATATTGCACGCAAAGGACTGATGTTAATGCACCGCATTCAGAACGCAGAGGACCTGAAGAAGGTAAATCT TGCGATCTCCAATCGCGACTGGTTACGTAACGCCCAGGGCCTTGATAAG SEQ ID NO: 331 Peptide ENLYFQ SEQ ID NO: 332 Peptide GHHHHHH SEQ ID NO: 333 Peptide GHHHHHH 

What is claimed is:
 1. A composition comprising (i) an engineered nucleic acid-guided nuclease comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 143-177 and 229, or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 143-177 and
 229. 2. The composition of claim 1 comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 144, 153, and 229, or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 144, 153, and
 229. 3. The composition of claim 1 or 2 comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 144 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to SEQ ID NO:
 144. 4. The composition of any previous claim comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 153 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to SEQ ID NO:
 153. 5. The composition of any previous claim comprising an engineered nuclease polypeptide comprising an amino acid sequence having at least 60% sequence identity to SEQ ID NO: 229 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to SEQ ID NO:
 229. 6. The composition of any previous claim wherein the sequence identity is at least 80%.
 7. The composition of any previous claim wherein the sequence identity is at least 95%.
 8. The composition of any previous claim wherein the sequence identity is 100%.
 9. The composition of claim 1 wherein the engineered nuclease polypeptide does not contain the peptide motif YLFQIYNKDF (SEQ ID NO. 224) or a polynucleotide or polynucleotides encoding the engineered nuclease polypeptide that does not contain the peptide motif YLFQIYNKDF (SEQ ID NO. 224).
 10. The composition of claim 9 comprising an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and 229 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 143-151, 161-163, 165, 166, 169, 171-175, 177, and
 229. 11. The composition of claim 10 comprising an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 149, 151, 175, and 177 or a polynucleotide or polynucleotides encoding an amino acid sequence having at least 60% sequence identity to any one of SEQ ID NO: 149, 151, 175, and
 177. 12. A composition comprising a targetable guide nucleic acid-guided nuclease complex comprising an engineered guide nucleic acid nuclease of any previous claim and further comprising (ii) a compatible guide nucleic acid.
 13. The composition of claim 12 wherein the guide nucleic acid is a gRNA and the complex is an RNP.
 14. The composition of claim 12 or 13 wherein the guide nucleic acid is a split guide nucleic acid.
 15. The composition of claim 13 or 14 wherein the gRNA is an engineered gRNA.
 16. The composition of claim 15 wherein the engineered gRNA comprises a conserved gRNA.
 17. The composition of claim 16 wherein the conserved gRNA comprises any one of SEQ ID NO: 291-325, or a portion thereof.
 18. The composition of claim 17 wherein the conserved gRNA comprises a portion of any one of SEQ ID NO: 291-325.
 19. The composition of claim 18 wherein the portion is a highly conserved portion comprising a nucleotide sequence for secondary structure of the RNA.
 20. The composition of claim 18 wherein the secondary structure comprises a pseudoknot.
 21. The composition of any of claims 13 to 20 wherein the gRNA is a synthetic gRNA.
 22. The composition of claim 21 wherein the gRNA comprises one or more chemical modifications.
 23. A method of creating a strand break at or near a target sequence in a target polynucleotide comprising contacting the target sequence with a targetable nucleic acid-guided nuclease complex of any one of claims 12-22, wherein the compatible guide nucleic acid of the complex targets the target sequence, and allowing the targetable guide nucleic acid-guided nuclease complex to create the strand break.
 24. The method of claim 23 wherein the target polynucleotide is in a cellular genome.
 25. The method of claim 23 or 24 further comprising providing an editing template to be inserted in the target sequence.
 26. The method of claim 25 wherein the editing template comprises a transgene.
 27. The method of any of claims 23-27 wherein the target polynucleotide is a safe harbor site.
 28. A cell created by the method of claim
 23. 29. An organism created by the method of claim
 23. 30. A composition comprising an engineered polynucleotide or polynucleotides comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any one of SEQ ID NO: SEQ ID NO: 1-142 and 225-228.
 31. The composition of claim 30 comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any one of SEQ ID NO: 1, 5, 11, 15, 19, 23, 27, 31, 35, 39, 43, 47, 51, 55, 59, 63, 67, 71, 75, 79, 83, 87, 91, 95, 99, 103, 107, 111, 115, 119, 123, 127, 131, 135, 139, and
 225. 32. The composition of claim 30 or 31 wherein the polynucleotide codes for one or more additional amino acid sequences at either the N-terminus, the C-terminus or both, of a polypeptide encoded by the polynucleotide.
 33. The composition of claim 32 wherein the additional amino acid sequences comprise at least one of (i) one or more NLSs; (ii) one or more purification tags; (iii) one or cleavage sequences; and (iv) FLAG or 3×FLAG
 34. The composition of claim 32 wherein the additional amino acid sequences comprise at least two of (i) one or more NLSs; (ii) one or more purification tags; (iii) one or cleavage sequences; and (iv) FLAG or 3×FLAG
 35. The composition of claim 32 wherein the additional amino acid sequences comprise at least three of (i) one or more NLSs; (ii) one or more purification tags; (iii) one or cleavage sequences; and (iv) FLAG or 3×FLAG
 36. The composition of claim 32 wherein the additional amino acid sequences comprise (i) one or more NLSs; (ii) one or more purification tags; (iii) one or cleavage sequences; and (iv) FLAG or 3×FLAG
 37. The composition of any of claims 30-36 wherein the polynucleotide or polynucleotides are codon optimized.
 38. The composition of claim 37 wherein the polynucleotide or polynucleotides are codon optimized for E. coli.
 39. The composition of claim 39 comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any of SEQ ID NO: 2, 6, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 226, and
 330. 40. The composition of claim 37 wherein the polynucleotide or polynucleotides are codon optimized for S. cerivisiae.
 41. The composition of claim 40 comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any of SEQ ID NO: 3, 7, 9, 13, 17, 21, 25, 29, 33, 37, 41, 45, 49, 53, 57, 61, 65, 69, 73, 77, 81, 85, 89, 93, 97, 101, 105, 109, 113, 117, 121, 125, 129, 133, 137, 141, and
 227. 42. The composition of claim 37 wherein the polynucleotide or polynucleotides are codon optimized for human.
 43. The composition of claim 42 comprising one or more polynucleotides comprising a sequence corresponding to a sequence with at least 60% sequence identity to any of SEQ ID NO: 3, 7, 9, 13, 17, 21, 25, 29, 33, 37, 41, 45, 49, 53, 57, 61, 65, 69, 73, 77, 81, 85, 89, 93, 97, 101, 105, 109, 113, 117, 121, 125, 129, 133, 137, 141, and 227
 44. The composition of any of claims 30-43 wherein the sequence identity is at least 80%.
 45. The composition of any of claims 30-43 wherein the sequence identity is at least 95%.
 46. The composition of any of claims 30-43 wherein the sequence identity is 100%. 